JP4684504B2 - Article manufacturing system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an article manufacturing system including a component assembling apparatus having a plurality of component mounting parts each capable of mounting different parts, and an assembling part that takes out the parts from each of the component mounting parts and assembles them onto a substrate. The present invention relates to an article manufacturing method to be used.
[0002]
[Prior art]
In recent article manufacturing, with the mechanization, a component assembling apparatus that automatically assembles a plurality of components at predetermined positions on a base material has come to be widely used. For example, in the field of mounting electronic circuit boards, component assembling apparatuses such as mounters and inserters that automatically assemble a plurality of electronic components to a board are widely used. A plurality of detachable cassettes (hereinafter simply referred to as cassettes) such as reel cassettes and bulk cassettes are mounted on these mounters and inserters, and these cassettes are equipped with different types of electronic components. The electronic parts before mounting are picked up one by one from the detachable cassette by a suction nozzle or the like, and then mounted on a solder paste printed on the substrate, or the lead wire provided on the substrate is a micro through hole. Or is assembled to the substrate.
[0003]
[Problems to be solved by the invention]
By the way, a mounter or an inserter must be mounted with a plurality of cassettes on which different types of electronic components are mounted at predetermined positions. Since this mounting is performed manually, there have often been situations in which the mounting position of the cassette is wrong or the wrong cassette is mounted when replacing the cassette for replenishing parts. When such a mistake occurs, a different type of electronic component is assembled to a predetermined position of the board by a mounter or inserter, resulting in mass production of defective electronic circuit boards that cannot be used. It will be. Such mass production is particularly likely to occur due to a cassette error at the time of cassette replacement, rather than a cassette mounting position error at the initial setting of the mounter or inserter. At the time of initial setting, it is common to check all products obtained by trial operation of the mounter and inserter after all cassettes are installed in sequence, whereas only cassettes that have run out of parts are replaced. This is because the product is not checked at the time of replacement.
[0004]
In addition, the above is the problem which arises in manufacture of the electronic circuit board which uses a mounter and an inserter as a component assembly apparatus. However, in the manufacture of articles using other parts assembling apparatuses, similar problems will occur if the parts are set incorrectly, such as when the parts are set in the wrong position or when the parts are replenished.
[0005]
  The present invention has been made in view of the above problems, and the object of the present invention is to manufacture an article that can suppress a situation in which a defective product is mass-produced due to erroneous mounting of a component on a component assembling apparatus. SystemTheIs to provide.
[0006]
[Means for Solving the Problems]
  In order to achieve the above object, the invention of claim 1 is a component having a plurality of component mounting portions on which different components can be mounted, and an assembly portion for taking out the components from each component mounting portion and mounting them on the base material. Product information that is part type identification information in an article manufacturing system equipped with an assembly deviceAnd thePart identification information for each packaging unit for identifying parts collectively for each packaging unit;Part identification information for each packing unitCorresponding and storing the mounting part information that is the information of the component mounting part corresponding toThe component identification information for each packaging unit and the information added to the component identification information for each packaging unit for each packaging unit, and the assembly processing for the component by the component assembly device. Stores in association with limited information, which is information that limits the type of the workpiece, and stores workpiece information, which is information on the assembly workpieceA host computer toPart identification information for each packing unitAnd a terminal having reading means for readingAnd, Depending on the terminalThe packageReading result of part identification information by package unit,as well as,The mounting unit information associated with the reading resultToData processing that makes it possible to determine whether a component is erroneously mounted on the component mounting unit based on the result, and to generate an erroneous mounting alarm from the terminal according to the determination resultAnd the packaging unit-specific component identification information read at the first timing by the terminal and the packaging unit-specific component identification information read at the second timing different from the first timing. The type of the part corresponding to the part identification information for each packing unit read at the first timing and the type of the part corresponding to the part identification information for each packing unit read at the second timing Data processing for determining whether or not a component is erroneously mounted on the component mounting unit based on the determination result, and the limited information associated with the packaging unit-specific component identification information read by the terminal, Based on the work piece information, the compatibility between the part corresponding to the part identification information for each packaging unit and the work piece to be assembled is judged, and the part inadequate alarm is generated from the terminal according to the judgment result. Data processing to andThrough cooperation between the terminal and the host computer.ImplementationIt is characterized by the fact that it has been allowed to.
Further, the invention of claim 2 is an article provided with a component assembling apparatus having a plurality of component mounting portions each capable of mounting different components, and an assembling portion for taking out the components from each component mounting portion and assembling them on the base material. In the manufacturing system, product type information that is identification information of the type of part, part identification information for each packing unit for collectively identifying the part for each packing unit, and the part corresponding to the part identification information for each packing unit It is stored in association with the mounting unit information, which is information of the mounting unit, and is the component identification information for each packing unit and the information added to the component identification information for each packing unit for each packing unit, A host computer for storing the packaging mode information, which is information indicating the orientation of the packaging, and a terminal having reading means for reading the part identification information for each packing unit, and the terminal Based on the reading result of the part identification information for each packing unit and the mounting part information associated with the reading result, the presence / absence of erroneous mounting of the part on the part mounting part is determined. Data processing for generating an erroneous mounting alarm from the terminal, the part identification information for each packing unit read at the first timing by the terminal, and the second timing different from the first timing Based on the part identification information for each packing unit, the type of part corresponding to the part identification information for each packing unit read at the first timing, and the part identification for each packing unit read at the second timing Data processing for determining the identity of the type of the component corresponding to the information, and determining whether or not the component is erroneously mounted on the component mounting portion based on the determination result; The packaging mode information associated with the packaging unit-specific component identification information read by the imming, and the packaging unit information associated with the packaging unit-specific component identification information read at a second timing by the terminal. Based on the result of the comparison, data processing for generating a packing mode mismatch alarm from the terminal is performed in cooperation with the terminal and the host computer.
[0007]
  ThisTheyIn the article manufacturing system, the host computer isPackedData that associates the component identification information for each packaging unit with the mounting unit information corresponding to this is stored. This host computer is capable of data communication with a terminal operated by an operator.Parts by packing unitIdentification information can be read from a label or the like attached to a packaging container for parts. For this reason, the host computer was read by the terminalPart identification information by packing unitIt is possible to identify the mounting unit information associated with the above data. Then, based on the identification result, either the host computer or the terminal determines whether there is a component setting position error (component mounting unit error). In order to realize such a determination, it is not always necessary for the host computer to acquire information on a component mounting unit that is a component setting target from a plurality of component mounting units in the component assembling apparatus from an operator via a terminal. Not. For example, the host computer specifies the component mounting part to be set based on the predetermined mounting instruction information, etc.BundlingIf an instruction to read the package unit-specific component information is given to the worker via the terminal, the component mounting unit can be grasped without obtaining special information from the worker. And read by the terminalPackingIf the mounting unit information associated with the package unit-specific component identification information is compared with the component mounting unit that has been grasped in advance or compared with the terminal, the above-described determination can be realized. If it is determined by this comparison that there is an error in the set position of the parts, alarm generation information is issued from the terminal. In the above configuration, it is possible to make the operator aware of a mistake in the setting position of the parts with respect to the parts assembling apparatus.
Further, in these article manufacturing systems, the operator performs the following work, so that the type of the component that has been mounted on the component mounting unit up to now and the type of the component that the component mounting unit is about to replenish from now on Can be determined by the host computer or terminal. That is, after the component identification information for each packaging unit for the former component is read by the terminal, the component identification information for each packaging unit for the latter component is read. At this time, the product type information associated with the packaging unit-specific component identification information is specified from the data stored by the host computer. Then, the two pieces of information to be compared are unified with the product type information to determine the identity of both pieces of information, and the identity of the types of both parts is judged. If they are not the same (if the parts are different), the terminal will send out a false alarm, so you can notice the mistake of the replacement parts.
Also, in these article manufacturing systems, parts information that differs for each packaging unit can be stored in the host computer in association with the part identification information for each packaging unit, so that different parts information can be managed for each packaging unit. become.
[0008]
Further, in the article manufacturing system according to the first aspect, it is possible to suppress the occurrence of mass production of defective products caused by assembling the same type of parts that do not exhibit desired characteristics onto the base material. Specifically, for example, in the field of electronic component mounting, even those of the same standard (type) such as a 150 [μF] capacitor can be used with no problem, but B The manufactured product can only be used for a specific electronic circuit board product, and if used for other products, it may cause a problem. If such electronic components are used for products other than the specific electronic circuit board product, defective products are mass-produced. Therefore, in this article manufacturing system, limited information for limiting the type of work to be assembled is stored as additional information in the host computer in association with the packaging unit-specific component identification information. In addition, workpiece information that is information on an assembly workpiece to be assembled by the component assembly apparatus is also stored. Then, based on the limited information associated with the reading result of the part information by packing unit by the terminal and the workpiece information, the host computer or the terminal determines the compatibility between the part and the assembly workpiece. ing. Therefore, when the component is mounted on the component assembling apparatus, the operator makes the system determine the compatibility between the component and the assembly work product by causing the terminal to read the component information for each packaging unit. If it is not suitable, a component inappropriateness alarm can be transmitted from the terminal. As a result, even if the parts are the same type, it is possible to suppress the occurrence of mass production of defective products due to the assembly of the parts that do not exhibit the desired characteristics on the base material.
[0009]
  Claim 2In the article manufacturing systemIn the case of the same type of parts, a part packed in a different direction from the part that was previously mounted is replenished to the part mounting part of the part assembling apparatus, and the part assembling apparatus is used as it is. It is possible to suppress the occurrence of mass production of defective products due to misunderstanding that the same parts as the above parts are replenished. Specifically, for example, a reel cassette that is a detachable mounting device for electronic components uses a reel wound with a carrier tape that holds the same type of electronic components at a predetermined pitch, and this reel is attached to the cassette body. Electronic parts are replenished by replacement. One reel serves as a packaging unit for electronic components. On the other hand, some electronic components have lead terminals to which specific functions are assigned, such as 1 pin, 2 pins,. If such electronic components are each held on the carrier tape in a random orientation, they are assembled to the substrate in different orientations by a mounter or an inserter. For this reason, all are held on the carrier tape in the same direction, but some reels are equipped with a carrier tape that holds all electronic components in a direction opposite to the normal direction as a special specification. . This is a so-called reverse wound product. If such a reversely wound product is handled in the same way as a normal reel, a defective product in which all the electronic components are assembled in the opposite direction will be mass-produced. Therefore, in this article manufacturing system, different packaging mode information such as reverse winding is stored in the host computer in association with the packaging unit-specific component identification information as additional information. Based on the comparison of the packing mode information associated with each of the packing unit-specific component identification information read by the terminal at different timings, a packing mode mismatch alarm is generated from the terminal. In such a configuration, the operator can perform the following operations to install the parts on the board even if the parts having a packaging mode different from the previously installed parts are mounted on the parts assembling apparatus. The attachment can be normally performed to the component assembling apparatus. That is, let the terminal read the part identification information for each packaging unit of the part that was previously installed, then read the part identification information for each packaging unit of the part that is to be mounted for replenishment from now on, The packaging mode information associated with each is compared. If they are different from each other, a packing mode mismatch warning is issued from the terminal. Therefore, when issued, after inputting information for recognizing that the packaging mode is different from the previous part to the part assembling apparatus, if the part assembling apparatus is operated, the part is removed. It is possible to avoid mass production of defective products by assembling in a normal orientation with respect to the substrate.
[0010]
  The invention of claim 3 is claimed in claim1 orIn the article manufacturing system of 2,Parts by packing unit aboveData for providing label issuing means for issuing a label on which identification information is formed based on a signal from the host computer, and causing the label issuing means to issue a label on which the part identification information for each packing unit is formed The host computer is configured to execute processing.
[0011]
In this article manufacturing system, a label on which a unit identification information for each packaging unit for identifying the received parts is collectively identified for each packaging unit is issued by a label issuing means and attached to a packaging container or the like of the part. Thus, it is possible to manage part information for each packing unit.
[0012]
The invention according to claim 4 is the article manufacturing system according to claim 3, wherein the component assembling apparatus is capable of mounting a plurality of components of the same type and configured to be detachable from the component mounting portion. Using the detachable mounter, the host computer associates and stores the part identification information for each packing unit and the model information that is the identification information of the type of the detachable mounter corresponding thereto, Matching between the type of component and the type of the detachable mounting device based on the device type information associated with the component identification information for each packing unit read by the terminal device in cooperation with the host computer The data processing is performed, and data processing for generating a combination inadequate alarm is performed from the terminal according to the determination result.
[0013]
In this article manufacturing system, as a part assembling apparatus, a detachable mounting device such as a bulk cassette or a reel cassette is attached to or detached from a part mounting unit, and a part is set on the apparatus main body. Yes. In general, detachable mounting devices such as bulk cassettes and reel cassettes are limited in the types of parts that can be mounted depending on the type of the mounting unit. End up. Therefore, in this article manufacturing system, a data table in which the component identification information for each packing unit and the corresponding device type information (equipped device type) are associated is stored in the host computer. Then, the terminal unit reads the part identification information for each packaging unit attached to the part packaging container, etc., causes the host computer to specify the type information associated with the reading result, and based on the identification result, Determine compatibility with the type of detachable loader. In order to realize such a determination, it is not always necessary to perform processing of the host computer such as acquiring information on the detachable mounter that is a component setting target from an operator via the terminal. This is because there is a case where the host computer gives a worker an instruction for setting a part for a specific detachable mounter in advance via a terminal. If the host computer determines that the combination of the component type and the detachable mounter type is inappropriate, a combination inappropriateness alarm is issued from the terminal. Therefore, the worker can notice the non-compliance of the combination by issuing the non-compliance alarm from the terminal.
[0014]
  The invention according to claim 5 is the article manufacturing system according to claim 4, wherein the plurality of detachable mounters each hold mounter identification information that is identification information corresponding to each of the mountable mounters. The host computer stores the on-board device identification information and the corresponding device type information in association with each other,The reading means is capable of reading the mounting device identification information in addition to the packaging unit-specific component identification information,The host computer and the terminal cooperate with each other to associate the device type information associated with the packaging unit-specific component identification information read by the terminal with the on-board device identification information read by the terminal. The compatibility is determined based on the comparison with the device type information, and the packaging unit identification information and the mounting device identification information are associated with each other according to the determination result and stored in the host computer. Data processing for determining whether or not a component is erroneously mounted on the component mounting portion based on the mounting portion information further associated with the package unit-specific component identification information associated with the read mounting device identification information It is characterized by implementing.
[0015]
In this article manufacturing system, when the unit identification information for each packaging unit attached to the label of the packaging container is read by the terminal, the corresponding model information is specified by the host computer. On the other hand, when the mounting device identification information attached to the removable mounting device is read by the terminal, the corresponding device type information is specified by the host computer. Based on the comparison of both types of specified device information, the suitability between the type of component and the type of detachable mounting device is judged, and then the above-mentioned component identification information for each packing unit and mounting are read. The device identification information is associated and stored in the host computer. This association enables data processing of the host computer such as identifying identification information for each packing unit of the parts mounted on the detachable mounting device from the reading result of the mounting device identification information. In general, in order to determine the suitability of the mounting position of a component with respect to the component assembly apparatus, it is necessary to compare the type information of the component to be mounted, the component identification information for each packing unit, and the like with the mounting portion information. However, in a component assembly apparatus that uses a detachable mounter, the operator has a strong awareness of mounting a detachable mounter rather than mounting a component on the component assembly apparatus. It comes to mind the right or wrong about the mounting position. Therefore, in this article manufacturing system, the host computer is caused to perform data processing as described above. By such data processing, the operator can read the mounting device identification information of the detachable mounting device to be mounted on the component assembling apparatus, based on the reading of the mounting device identification information of the component mounted on the detachable mounting device. Make the host computer identify the part identification information for each packing unit. And it becomes possible to identify the mounting part information linked | related with the part identification information according to packing unit, and to determine the presence or absence of incorrect mounting of a part based on a specific result. In the above configuration, the detachable mounting device is attached to the worker in accordance with the operator's recognition of mounting the detachable mounting device rather than mounting the component to the component assembling apparatus. By performing the reading operation of the mounted device identification information, it is possible to determine whether or not a component is erroneously mounted on the component mounting portion.
[0016]
  The invention of claim 6 is the article manufacturing system according to claim 1, 2, 3, 4 or 5, wherein the host computer includes storage position information which is identification information of a storage position of a part corresponding to the product type information. , And stores the above-mentioned product type information or product type association information associated with the product type information,The reading means is capable of reading the storage position information, product type information or product type association information in addition to the packaging unit specific part identification information,The host computer and the terminal cooperate with each other to determine the compatibility between a part and its storage position based on the storage position information, product type information, or product type association information read by the terminal, Accordingly, data processing for generating a storage position inappropriateness alarm from the terminal is performed.
[0017]
In this article manufacturing system, it is possible to suppress complication of work due to an incorrect storage position of parts for the following reason. In other words, it is assumed that a storage position for storing a different type of part has occurred due to a wrong part storage position. If an operator takes out a part from this storage position without noticing the difference in type, and tries to mount it on the target part mounting part of the part assembly device without noticing it, a false alarm will be issued from the terminal. You can notice mistakes. Then, the original correct part is to be mounted again, but since the part is not at hand, an extra work is required to go back to the storage position and pick up the part. Furthermore, if all of the parts are stored in the wrong storage position, an extremely inefficient operation of checking all the storage positions as needed is forced to find the storage position. Therefore, in this article manufacturing system, data that associates storage position information with product type information or part identification information for each packing unit is stored in a host computer. Then, the host computer is made to determine the compatibility between the part and the storage position based on this data and the reading result of the storage position information, product type information or product type association information by the terminal. For this determination, for example, when the host computer is configured to issue a storage work instruction based on received parts information stored in advance to the worker via the terminal, the following processing is performed. It can be realized by implementing. That is, for example, the storage position information read by the terminal at the storage position of the parts, the storage position information associated with the product type information or product type association information read by the terminal, and the storage work that has been transmitted earlier This is a process of comparing the storage position information corresponding to the instruction. Further, for example, the reading result of the storage position information, the kind information or the kind association information attached to the packaging container of the parts by the terminal, and the reading result of the storage position information, the kind information or the kind relation information attached to the storage position. May be compared. If the reading result is not storage position information, the storage position information associated with the reading result is specified prior to this comparison. In the above-described configuration, by making the operator aware of an error in the storage position of the parts and suppressing the occurrence thereof, it is possible to suppress the complication of work due to the error in the storage position.
[0018]
The invention of claim 7 is the article manufacturing system according to claim 6, wherein the host computer stores instruction information for instructing an operator to take out a part from the storage position. Appropriateness of the type of parts to be taken out based on the instruction information transmitted from the host computer in cooperation with the computer and the product type information or the part identification information for each packing unit read by the terminal The data processing is performed to take out the terminal from the terminal according to the determination result and to generate a kind inappropriate alarm.
[0019]
In this article manufacturing system, for the reasons described below, it is possible to suppress complications in work due to erroneous removal of parts from the storage position. That is, even if the part is stored in the original correct storage position, the part is not always correctly removed by the operator. The operator may make the mistake of removing the wrong part from the wrong storage location. If such a mistake is caused and the component is directly mounted on the target component mounting portion of the component assembling apparatus, an erroneous mounting alarm is issued from the terminal. For this reason, the operator can notice a component mistake. However, since the original correct part is not at hand, an extra work is required to go back to the storage position and pick up the part. Therefore, in this article manufacturing system, the instruction information for the part removing operation is obtained by the operator via the terminal by the host computer. Then, the host computer is made to acquire the product type information read by the terminal device by the operation of the worker according to the instruction information or the product type information associated with the read package unit specific part identification information. Further, the product type information and the product type information corresponding to the instruction information from the host computer are compared with the host computer or the terminal device, the suitability of the type of the part to be taken out is judged, and the product type improperness warning is issued from the terminal device according to the judgment result. Is generated. In such a configuration, an operator takes out a part to be taken out from a storage position in order to perform a taking-out operation instructed by the host computer, and identifies product type information attached to the part or the packing container, or part identification by packing unit. In response to the information being read by the terminal, a takeout type inappropriateness alarm is issued from the terminal, so that it is possible to notice an error in taking out the information. As a result, it is possible to suppress complication of work due to an error in taking out a component from the storage position.
Furthermore, in this article manufacturing system, by suppressing the mistake in taking out in addition to the mistake in the storage position of the parts, the flow of parts in the facility can be made smooth, and the time from arrival to assembly can be shortened.
[0026]
  Claim8The invention of claimAny one of 1-7An article manufacturing system of the aboveHost computerBut,Information added to the packaging unit-specific component identification information for each packaging unit, andInformation on the number of remaining parts per packaging unitIsUnit remaining number informationAnd rememberThe unit remaining number information value is updated based on the input operation by the operator.Is a thingIt is characterized by this.
[0027]
In this article manufacturing system, by carrying out the following work, the computer manages the inventory of parts in units of packaging such as packing containers, and accurately grasps the inventory of individual types of parts in the facility. It becomes possible. That is, an input operation for updating the unit remaining number information associated with the part identification information for each packing unit such as a packaging container that has used up the parts to zero is performed on the host computer, or parts remain. What is necessary is just to perform input operation for updating the unit remaining number information linked | related with the parts identification information according to packing units, such as a packing container, to the remaining number. Since the part identification information for each packing unit is also associated with the product type information, if the remaining number of units is aggregated for each new type information, it is possible to accurately grasp the inventory of various parts in the facility. It becomes.
Moreover, in this article manufacturing system, by accurately grasping the inventory of various parts, it is possible to reduce the number of inventory by suppressing unnecessary arrival.
Furthermore, in this article manufacturing system, it is possible to effectively suppress the mass production of defective products due to various work mistakes, and to shorten the time from arrival to assembly by suppressing mistakes in the storage position and removal of parts. The following effects can also be achieved by a synergistic effect of achieving the above and accurately grasping the inventory of various parts. In other words, it is difficult to cause mass production of defective products even if a small quantity and a variety of products are produced that frequently change the type of parts mounted on the parts assembly device, and the time from arrival to assembly is reduced. By accurately grasping the inventory of various parts while shortening and reducing the number of parts in stock, it is possible to flexibly respond to so-called on-demand production demands for small quantities, multiple varieties, and short delivery times.
[0028]
  Claim9The invention of claim 1, 2, 3, 4, 5, 6, 7Or 8In the article manufacturing system, data communication means that enables data communication between the host computer and the terminal is provided by means of wireless data communication.
[0029]
In this article manufacturing system, data communication with the host computer can be performed without connecting a cable to the terminal. Therefore, the movement of the terminal is not restricted by the cable from the host computer, and the mobility of the terminal can be improved.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which the present invention is provided to an electronic circuit board manufacturing system (hereinafter referred to as a board manufacturing system) that manufactures an electronic circuit board product by assembling electronic components onto a board by a mounter will be described.
FIG. 1 is a perspective view showing an example of a schematic configuration of a mounter that is a component assembling apparatus in the board manufacturing system according to the present embodiment. In the figure, the mounter 1 fixes a plurality of reel cassettes 2 as detachable mounting devices on a cassette moving table 3 as a plurality of continuous component mounting portions. In the reel cassette 2, a reel 5 in which a carrier tape is wound around a winding shaft as a packing container is set. Further, the cassette moving table 3 is moved in the X direction in the figure by a driving mechanism (not shown).
[0033]
On the front side of the cassette moving table 3 in the figure, a rotating table 7 that rotates with the rotating suspension column 6 as a base is disposed, and a component suction unit 8 is fixed on a circular track. The component suction unit 8 includes a suction nozzle 8a for holding electronic components on the lower end side. The suction nozzle 8a sucks an electronic component held on the component supply unit 2a of the reel cassette 2 positioned immediately below the position A in the drawing as the rotary table 7 is rotated. The cassette moving table 3 moves in the X direction in the figure, thereby moving one of the plurality of reel cassettes 2 to be picked up by the electronic component to the suction position (position A in the figure) of the suction nozzle.
[0034]
Below the turntable 7 is disposed an XY table 9 that is moved in the X and Y directions in the figure by a drive mechanism (not shown), and a printed circuit board 10 as a base material is fixed on the upper surface thereof. Yes. A predetermined electrode pattern is formed on the surface of the printed board 10, and a solder paste pattern corresponding to each lip lead is printed on the electrode pattern in advance by a solder printing process. The electronic component sucked by the suction nozzle 8a is moved to a predetermined position on the printed circuit board 10 by the rotation of the rotary table 7 or the movement of the XY table 9, and then the lead is placed on the corresponding solder pace pattern. Is mounted by the suction nozzle 8a. There is also a type of mounter that adjusts the mount position by moving only one of the printed circuit board 10 and the suction nozzle 8a.
[0035]
FIG. 2 is a perspective view showing an example of the reel cassette 2 in a state where the reel 5 is set. As shown in the figure, the reel cassette 2 is formed in a flat shape, and a component supply unit 2c is provided on the base 2b. A reel holder 2d is provided on the rear end side of the base 2b, and a reel 5 including a winding shaft and a carrier tape is set therein. In addition, a take-up reel 2e is provided above the component supply unit 2c so as to take up the carrier tape sent out from the reel 5 as electronic components are supplied. Note that the reel winding shaft has the character of a packaging container.
[0036]
The carrier tape holds, for example, 2000 electronic components in an initial state, and each electronic component held when passing through the component supply unit 2c as the take-up reel 2e rotates is moved one by one. Picked up. The picked-up electronic component is discharged to the component supply unit 2a provided near the tip of the component supply unit 2c, and then supplied to the suction nozzle (8a) of the mounter (1).
[0037]
Although not shown in FIG. 2 for the sake of convenience, all reel cassettes 2 in the facility are provided with barcodes of cassette serial numbers serving as mounting device identification information for individually identifying each. A label is affixed.
[0038]
FIG. 3 is a block diagram showing the substrate manufacturing system according to the present embodiment. In the figure, this board manufacturing system includes a host computer 20, which includes an SS wireless LAN (spread spectral wireless local area network) 28, a label issuing personal computer 22, a plurality of mounter personal computers 21, and count information. An input personal computer 25 and an inspection information input personal computer 30 are connected. One or more mounters 1 are connected to each of the plurality of mounter personal computers 21. The label issuing personal computer 22 is connected to a scanner 24 that can read a barcode serving as identification information and a label issuing machine 23 that issues a label printed with the barcode. The counting information input personal computer 25 is connected to a scanner 27 capable of reading a bar code, a counting machine 26, a label issuing machine 35, and the like which will be described later.
[0039]
The SS wireless LAN 28 serving as data communication means wirelessly implements data communication between the host computer 20 and the wireless terminal 29 carried by each worker. Specifically, data transmitted wirelessly from a plurality of wireless terminals 29 is received and sent to the host computer 20 by wire, or data transmitted by wire from the host computer 20 is wirelessly transmitted to the wireless terminal 29. Or send it to. Therefore, the wireless terminal 29 is also provided with wireless data communication means. The wireless terminal 29 has a scanner (not shown) that can read the barcode, and can read the barcode information to the host computer 20 via the SS wireless LAN 28. Further, in the figure, for convenience, the host computer 20 is described as one unit, but the number is not limited to one, and a plurality of host computers may be connected by a LAN or the like. In the present invention, all computers that can communicate with a terminal through data communication means or other computers are host computers. In addition, data communication may be performed by other wireless such as PHS (Personal Handy Horn System) instead of performing data communication by the wireless LAN or the terminal by SS wireless.
[0040]
In a facility where this board manufacturing system is provided, each electronic component is previously assigned a number called a child part number that is different for each type. This type is determined by a combination of its function (capacitor, resistance, etc.) and electrical standard (F, Ω, etc.), for example, 150 [μF] electrolytic capacitor, 200 [μF] electrolytic capacitor, etc. Is. Therefore, even if manufactured by any manufacturer, the same child part number is assigned if the function and the standard are the same, and the manufacturer cannot be specified from the child part number. Part number management such as assigning a different child part number for each manufacturer is not performed. In manufacturing electronic circuit board products, if electronic components can be identified at least by type, component mounting as designed This is because (assembly) can be performed. Nevertheless, if a different child part number is assigned to each manufacturer, data processing for mounting becomes complicated. However, in order to mount an electronic component by a mounter or inserter, it is also necessary to manage information such as model-limited information that is part characteristic information that cannot be specified from this child part number, and reverse winding information that is packing mode information. Come.
[0041]
Here, “model limitation” means that the use (electronic circuit board product that can be mounted) is limited depending on the manufacturer even if the electronic components are of the same type. Specifically, for example, it is assumed that an electronic component a manufactured by Company A causes all of the electronic circuit board products X, Y, and Z to function normally. On the other hand, the electronic component b manufactured by the company B and the electronic component c manufactured by the company C function normally only with the electronic circuit boards Y and Z, respectively. In rare cases, it is impossible. The cause is often unknown, but the types of electronic circuit board products to be mounted on the electronic components b and c are limited. In manufacturing all of the electronic circuit boards X, Y, and Z, it is advantageous for reasons of component management to prepare only the electronic component a that is not limited to the model and use it for all the substrates. However, when the arrival of the electronic component a becomes difficult due to various circumstances, it is necessary to temporarily receive the electronic components b and c and use them for manufacturing the electronic circuit boards Y and Z. Since the electronic parts b and c temporarily received need to be used only for the limited electronic circuit boards Y and Z, it is necessary to manage them by adding model-limited information in addition to the child part number. Will occur.
[0042]
Reverse winding means that all electronic components are held on the carrier tape in a direction opposite to the normal direction. For example, as shown in FIG. 4, the reel around which the carrier tape 12 is wound is normally used so as to hold the electronic component 11 in such a posture that the first lead and the fifth lead are positioned on the leading end side in the tape drawing direction. Suppose it is a roll. On the other hand, the reel around which the carrier tape 12 is wound so as to hold the electronic component 11 in a posture reverse to 180 [°] so that the 4th lead and the 8th lead are positioned on the tip side is reversely wound. is there. The reason for the arrival of such a reverse-winding reel is that a reverse-winding reel was intentionally ordered because a normal-winding reel could not be arranged, or a reverse-winding was delivered in response to an order for a normal-winding due to a mistake of the supplier. And so on. For the electronic component 11 mounted on such a reverse-winding reel, it is necessary to manage the electronic component 11 by adding reverse-winding information in addition to the child part number.
[0043]
FIG. 5 is a flowchart showing the flow of electronic components in a facility where the board manufacturing system is provided. In FIG. 5, the electronic components are first divided into the same types and given an order number (step 1, hereinafter, step is denoted as S). This order number is associated with the sub-part number of the electronic component and the order quantity, and is stored in a data table (hereinafter referred to as a component management table) of the host computer 20 via the inspection information input personal computer 30 shown in FIG. Entered. The ordered electronic components are received and received at the facility (S2), and then inspected for each order number (S3). By this inspection, the number of packaging (number of parts per reel), number of reels (number of packaging units), delivery number, pitch, unit price (unit price per part), model limitation, reverse winding, special preservation method, conformity The type of reel cassette is confirmed. The confirmed items are input to the parts management table so as to be associated with the order number, and the delivery key number corresponding to the order number is automatically given to the order number by the host computer 20 for parts management. Entered into the table. At this time, the parts management table in the host computer 20 associates the items listed below. In addition, the said pitch is the arrangement | positioning pitch of the electronic component on a carrier tape. The storage method is information input when a special storage method such as sealed storage is required depending on the electronic component.
・ Parts management table
(1) Order number
(2) Child part number
(3) Order quantity
(4) Number of packages
(5) Number of reels (round up (6) / (4))
(6) Number of deliveries
(7) Unit price
(8) Tape width
(9) Pitch
(10) Part name (type name)
(11) Model limited information
(12) Reverse winding information
(13) Special preservation method
(14) Date of arrival
(15) Delivery key number
[0044]
In FIG. 3 described above, the host computer 20 is connected to a printer (not shown), and each of the data (1) to (15) is written in characters, symbols, etc. based on instructions from the operator. The received receipt slip is output from the printer. At this time, the delivery key number of (15) is output in a barcode format in addition to the characters and symbols.
[0045]
The reel on which the electronic component that has undergone inspection is mounted is stored and stored in a storage room (not shown) prepared according to the type of the electronic component (S4). Then, after being delivered as required (S5), after being set up to be set on the mounter shown in FIG. 1 (S6), it is mounted on a substrate to become an electronic circuit board product ( S7). The electronic circuit board products are inspected together (S8) and then shipped to a predetermined destination (S9). When the mounting routine for mounting is completed, the number of remaining parts is inspected and the remaining number of parts is inspected (S10). In the counting operation, counting is performed using the counting machine 26 shown in FIG. 3, and a label on which the counted number is printed is output from the label issuing machine 35. The reels that have been subjected to the counting are either put into the storage room again after this label is affixed, or are used for other setups as they are.
[0046]
In the above flow, the processes from S1 to S4 are classified as control areas, and the remaining processes are classified as production areas. Note that FIG. 5 shows the flow focusing only on the flow of the electronic components, and therefore, the steps necessary for manufacturing an actual electronic circuit board product are omitted. The omitted processes are, for example, manufacturing a printed circuit board prior to the mounting process (S7), printing a solder paste pattern on the printed circuit board, and soldering the electronic component leads after mounting by reflow. It is a process of fixing on the substrate by melting and solidifying the paste.
[0047]
FIG. 15 is a schematic diagram for explaining the label issuing operation in the warehousing process of the conventional substrate manufacturing system. In the figure, a plurality of reels usually correspond to the above-mentioned warehousing slip. For example, assuming that 10,000 electronic parts are received for the same type of electronic parts and the number of reels on which the electronic parts are mounted (the number of parts per reel) is 1000, the number of incoming reels is 10 It becomes. Ten reels correspond to one receipt slip (delivery key number). The operator manually inputs the child part number, the number of parts mounted, and the date of arrival into the inspection information input PC while checking the receipt slip against these reels, and then places the label with these information on the number of reels. It is issued from the label issuing machine as much as possible. However, at the time of this manual entry, the child part number, the number of parts mounted, or the arrival date recorded on the receipt slip is mistakenly read or an input error is made, and a label on which incorrect data is printed is issued. There was a case.
[0048]
On the other hand, in the substrate manufacturing system according to the present embodiment, the host computer 20 stores a child part number related information table (data table) in which items listed next are associated.
Child number related information table
▲ 1 ▼ Child part number
▲ 2 ▼ Storage area number
(3) Cassette module number
In this data table, the storage section number ({circle around (2)}) indicates the position number in the storage shelf prepared for storing the electronic component corresponding to the child part number ({circle around (1)}). The cassette module number (<3>) is information relating to the reel cassette on which the electronic component corresponding to the child part number (<2>) can be mounted. Specifically, a device corresponding to the type of the reel cassette is used. Species information. The cassette module number (3) is a number corresponding to the tape width (8), pitch (9), tape material, reel size, and the like.
[0049]
The host computer 20 also stores a data table called a reel management table for individually managing individual reels, which associates items to be listed next.
・ Reel management table
(A) Reel serial number
(B) Delivery key number
(C) Child part number
(D) Number of packages
(E) Storage district number
(F) Number of remaining parts
(G) Status information
(H) Model limited information
(I) Reverse winding information
(J) Production instruction number
(K) Production line number
(L) Equipment number
(M) Input order number
(N) Z-axis number
In this data table, the reel serial number (A) is a unique serial number assigned to each reel. The remaining component number (F) is the remaining number of electronic components in the reel corresponding to the reel serial number (A), and has a property as unit remaining number information. The status information (G) is information indicating where and in what state the reel corresponding to the reel serial number (A) exists in the facility. The data (J) to (N) will be described in detail later.
[0050]
FIG. 6 is a schematic diagram for explaining a label issuing operation in the warehousing process of the substrate manufacturing system according to the present embodiment. The label issuance work only has to be performed by the operator having the scanner 24 of the label issuing personal computer 22 shown in FIG. This bar code indicates the delivery key number (15) as described above, and the data of the delivery key number (15) is sent to the host computer 20 via the label issuing personal computer 22. First, the host computer 20 specifies the child part number, the number of packages, the number of reels, the model limitation information, and the reverse winding information corresponding to the delivery key number from the parts management table ((15) to (2), ( 4), (5), (11) and (12) are specified). Next, a data group consisting of the specified data (excluding the number of reels), the delivery key number, and the above-described status information “01” indicating that inspection has been completed is temporarily stored as “reel basic data”. Keep it. Further, (1) to (14) associated with the delivery key number of “reel basic data” are specified from the parts management table, and these are temporarily stored as “label basic data” together with the delivery key number. Keep it. Then, the number of reel serial numbers equal to the number of reels (5) are sequentially generated, and the label issuing process is performed each time they are generated.
[0051]
The contents of the label issuing process are as follows. That is, a reel serial number (A) is first input to the reel management table, and a delivery key number (B), a child part number (C), a number of packages (D), and status information (G) associated therewith. The information of “reel basic data” is input as model-limited information (H) and reverse winding information (I). Then, the same value as the number of packaging (D) is input to the number of remaining parts (F). This is because the electronic components mounted on the reel have not been used yet. Next, the storage section number corresponding to the child part number of the “reel basic data” is specified from the child part number related information table (specified from (1) to (2)), and the specified result is stored in the reel management table. Enter as the storage area number (E). Then, “label basic data” is transmitted to the label issuing personal computer 22 together with the reel serial number (A). After the label issuance process described above, a data group including the newly generated reel serial number (A) and each piece of data associated therewith is added to the reel management table. The data is transmitted to the label issuing personal computer 22. In the data group added to the reel management data table, specific information is input only to (A) to (I), and the remaining (J) to (N) are default. These are input with specific information in the above-described setup step (S6) and the like.
[0052]
The label issuing personal computer 22 that has received the data from the host computer 20 displays the label on which the “label basic data”, the delivery key number, and the reel serial number (A) are printed for the number of reels (5). Output from the label issuing machine 23. Note that the reel serial number (A), which is the identification information for each packing unit, is printed together with the barcode format.
[0053]
In label issuance work for issuing labels as described above, labels can be issued simply by reading the barcode on the receipt slip with a scanner, so the child part number (2), number of packages (4), and arrival It is possible to avoid a situation in which a label on which wrong information is printed is issued due to a mistake in reading the day (14) or an incorrect input.
[0054]
FIG. 16 is a schematic diagram for explaining the warehousing operation in the conventional substrate manufacturing system. In the figure, the worker carries the reel with the label attached to the storage room by means of a carriage. In this storage room, a plurality of storage shelves for storing reels are arranged, and storage zones divided into predetermined spaces are arranged in each storage shelf. One storage area corresponds to one type of electronic component (one child part number), and serves as a storage position for storing a dedicated type of electronic component. Each storage area is affixed with a shelf sticker on which the child part number of the corresponding electronic component is written, and the operator writes it on the child part number described in the warehousing slip and on the shelf seal of each storage area. The storage area corresponding to the reel (electronic component) carried is found while collating with the child part number. However, at this time, the child part number written on the receipt slip or the child part number written on the shelf sticker may be mistakenly read, and the reel may be stored in the wrong storage area. Furthermore, conventionally, the parts management table and the data related to the electronic parts after warehousing are separately managed, and the data relating to the electronic parts already received are input to another computer dedicated to warehousing management. However, there was a case where an input error occurred during this input. If there is an input mistake, of course, accurate inventory management will not be possible.
[0055]
FIG. 7 is a perspective view showing the wireless terminal 29. In the figure, this wireless terminal includes an arithmetic processing means (not shown), an input operation section 31 for inputting data to the display section, a screen display section 32 constituted by a liquid crystal display, and a transmission / reception section for transmitting / receiving SS radio waves. 33. A scanner unit 34 for reading a barcode by a known technique is provided. And since the whole is comprised by the palm size, each worker can carry now without trouble. In this board manufacturing system that realizes wireless data communication between the wireless terminal 29 and the host computer 20 by the transmission / reception unit 33 and the SS wireless LAN 28 shown in FIG. 3, a cable is connected to the wireless terminal 29. In this way, data communication with the host computer 20 can be performed. Therefore, the movement of the terminal is not restricted by the cable from the host computer.
[0056]
FIG. 8 is a schematic diagram for explaining the warehousing operation in the substrate manufacturing system according to the present embodiment. In the figure, the operator inputs information indicating that the warehousing process is to be performed to the wireless terminal 29, and then reads the barcode of the delivery key number described on the warehousing slip and pastes it in the storage area. The barcode on the shelf seal is read. Then, when the reel corresponding to the receipt slip is not suitable for the storage area, a storage area difference alarm, which is a storage position inappropriate alarm, is displayed on the image display unit 32 of the wireless terminal 29. In the past, the child part number was written on the shelf sticker. However, in this system, the storage section number, which is the kind association information and the storage position information, is written in the barcode format instead of the child part number as the kind information. ing.
[0057]
The above storage area difference alarm is issued as follows. First, when the host computer 20 receives the delivery key number data from the wireless terminal 29 via the SS wireless LAN 28, the delivery is notified. The storage section number associated with the key number is identified from the reel management table (identification of (B) to (E)). Next, when the storage area number data is sent from the wireless terminal 20, this is compared with the previously specified storage area number, and if they match, an OK signal is directed to the wireless terminal 20. Depart. In addition, the reel management table is subjected to processing for updating the status information (G) from “inspected (01)” to shelf inventory (02) for all association data groups including the delivery key number. On the other hand, if the storage zone numbers do not match, a NO signal as alarm generation information is issued to the wireless terminal 20 to display a storage zone difference alarm. In such warehousing work, the reels are stored incorrectly due to misreading of the child part number indicated on the warehousing slip or the child part number indicated on the shelf sticker (in this embodiment, the storage area number instead). You can avoid situations such as warehousing in the ward.
[0058]
In FIG. 3 described above, the host computer 20 stores various data necessary for manufacturing the electronic circuit board product. The parent part number assigned for each type of electronic circuit board product, the child part numbers for all electronic components used in the electronic circuit board product, NC data for operating the mounter 1, and the like. A plurality of production lines are provided in the facility, and different types of electronic circuit board products can be manufactured. In addition, each production line is provided with a mounter personal computer 21 and one or more mounters 1 corresponding to the mounter personal computer 21. By passing one board through a plurality of mounters 1, all necessary for manufacturing are provided. Electronic components are assembled to the board. Furthermore, each production line manufactures a different electronic circuit board product for each time period in order to perform on-demand production.
[0059]
The host computer 20 is also connected to a work instruction computer (not shown) provided in each production line, and a printer is further connected to the computer. The worker working on the production line prints out production instructions necessary for the day's work from this computer before starting work. This production instruction is divided into a plurality of lists such as a parts preparation list, a reel cassette preparation list, a setup instruction list, a mounter setting list, and a first product (a product manufactured first in response to a production instruction) check list. The worker can perform each work for manufacturing a different electronic circuit board product for each time zone by proceeding with the work according to these lists. The component preparation list is printed out in the conventional system, but is not printed out because it is not necessary in the board manufacturing system according to the present embodiment.
[0060]
In order to set electronic parts on the mounter 1, first, necessary reels are taken out from the storage room, or necessary reel cassettes are picked up from cassette shelves (not shown) arranged beside the production line. There must be. Therefore, conventionally, reels and reel cassettes are prepared while looking at the parts preparation list and reel cassette preparation list.
[0061]
FIG. 17 is a schematic diagram for explaining a delivery operation in a conventional substrate manufacturing system. The operator first checks each child part number listed in the above parts preparation list against the child part number of the label affixed to the reel of the reel cassette that was used until the previous manufacturing. Check for the presence of a reel. If there is a necessary reel, the tape remaining amount (winding amount) of the reel is checked from the side, and the approximate number of remaining components is estimated and written in the component preparation list. Usually, the number of missing parts is calculated manually because the number of reels is insufficient. Also, check the reels for model limitations and reverse winding. For the limited-type and reverse-winding reels, a dedicated label is affixed in advance during the inspection work described above, so the presence or absence of this label is checked. When the parts confirmation work in the production line is completed, the next storage room is reached, and the reels of the type that were not in the line and the additional reels to make up for the shortage of parts that were present are delivered.
[0062]
Also in this delivery, the number of remaining parts is estimated from the remaining amount of tape for each electronic component, and reels are picked up to the number where the total number of remaining parts exceeds the required number of parts. At this time, since the number of remaining parts is not an accurate value, an error necessarily occurs between the total value and the true total number of parts. If the former is much lower than the latter, the number of parts delivered will be less than the required number of parts, and there will be a shortage of reels, which will take time to get to the storage room during line operation. In addition, in the production line, electronic components may be damaged due to various mistakes. For this reason, the worker inevitably tends to issue more reels than necessary by estimating the total value slightly. In addition, in the delivery of various electronic components, the electronic component child part number described in the parts preparation list, the shelf seal child part number described in the shelf seal, and the reel taken out from the shelf, respectively. It is necessary to collate with the child part number written on the affixed label. At the time of this collation, one of the wrong reels may be mistakenly read and an incorrect reel may be issued. In addition, it is necessary to go out to the automatic warehouse which is another storage place about the electronic component which was not in time even when leaving from the storage room. In addition, shipping is performed in the order of input. The order of input indicates the order in which substrates for various types of electronic circuit board products are input to the production line, and is the type unit of electronic circuit board products to be manufactured.
[0063]
FIG. 9 is a schematic diagram for explaining a delivery operation in the substrate manufacturing system according to the present embodiment. In this substrate manufacturing system, an instruction from the host computer 20 is sent to the wireless terminal 29 via the SS wireless LAN 28 without issuing the above-described component preparation list, so that the worker can perform the leaving work. Yes. Conventionally, all the reels necessary for the day's work are delivered in one delivery operation, but in this system, the delivery operation is performed in two stages of assembly delivery and replacement delivery. I have to. Assembling delivery is a delivery operation for delivering as many reels as necessary in the corresponding loading order. As many reels as the number of necessary reel cassettes are delivered. Further, the exchange delivery is a delivery operation for delivering the remaining replacement reels. Thus, by performing assembly delivery and replacement delivery separately, it is possible to reduce the number of handling reels during setup and facilitate work. Moreover, it is possible to start the operation of the line more quickly by preparing only the reels that can operate the line.
[0064]
The worker first performs assembly assembling. Specifically, after inputting the information indicating that the assembling / unloading is performed, the wireless terminal 29 is caused to sequentially read the barcodes of the production instruction number and the production line number printed on the setup instruction list. Then, based on these numbers, the host computer 20 specifies the required child part numbers for each order of entry. Then, after rearranging the order of the slave part numbers (reel pickup order) so that the operator can pick up all the reels corresponding to the slave part numbers by making one round of the storage room, First, the first child part number is specified. Further, after specifying the storage section number corresponding to the child part number from the above-mentioned child part number related information table (specify (1) to (2)), the child part number and the storage section number are input order and the number of necessary parts. At the same time, data to be displayed on the image display unit 32 is transmitted to the wireless terminal 29. The operator moves to the position of the storage area number (2) displayed on the wireless terminal 29, picks up the reel from there, and then the barcode (reel serial number) of the label affixed to the reel Is read by the wireless terminal 29. The host computer 20 identifies the slave part number corresponding to the reel serial number sent from the wireless terminal 29 from the reel management table (identifies (A) to (C)). And a specific result is collated with the child part number specified from the said child part number related information table.
[0065]
If the two match, an OK signal is sent to the wireless terminal 29, and then associated with the reel serial number (A) sent from the wireless terminal 29 earlier in the reel management table. The status information (G) data is updated from “shelf inventory (02)” to “preparation (50)”. By this update, the production manager can grasp that the reel corresponding to the reel serial number has been delivered based on the reel management table of the host computer 20. In addition, the host computer 20 specifies (J) to (N) in the reel management table based on the production instruction number, the production line number, the reel serial number, etc. sent from the wireless terminal 29 earlier. Enter a numerical value. By this input, it is later specified which reel (the mounter, etc.) of which production line at which production instruction number is picked up for mounting on which Z-axis number in what order of loading. It becomes possible. Note that the Z-axis number (N) in the reel management data table is a reel cassette mounting position of the mounter 1 relative to the cassette moving table 3 and has a character as mounting section information.
[0066]
On the other hand, if they do not coincide with each other, a NO signal is sent in order to display a child part number difference alarm, which is an alarm for inappropriateness of the extracted product, on the image display part 32. By displaying this child part number error warning on the image display unit 32 of the wireless terminal 29 that the operator has in hand, the operator can be aware of the error and avoid the situation where the wrong type of reel is released. can do. If the child part number warning is not issued, the reels are stored in the boxes corresponding to the loading order among the boxes prepared in advance for the number of loading orders. The above operation is performed for all the reels for assembling, and the assembling and unloading is completed.
[0067]
In such a delivery operation, it is possible to avoid erroneous delivery of the reel due to a reading error of the information described on the shelf seal or the information described on the label attached to the reel. The host computer 20 stores the exact component remaining amount in each reel in association with the reel serial number for the reason described later. When the reel of the electronic component instructed to the operator is definitely picked up, the number of necessary components is calculated. The remaining number of necessary parts is calculated by subtracting the remaining parts. Then, the component remaining amount and the calculated data of the required number of remaining components are transmitted to be displayed on the image display unit 32 of the wireless terminal 29. Accordingly, the worker can accurately grasp the remaining necessary number of parts by displaying on the image display unit 32 of the wireless terminal 29 at the time of delivery. As a result, it is possible to avoid a situation in which the total value of the electronic components delivered as in the conventional case is estimated to a small extent and more reels than necessary are delivered. In addition, since the exchange delivery is almost the same as the assembly delivery, the description is omitted.
[0068]
FIG. 18 is a schematic diagram for explaining cassette preparation work and assembly work in a setup process of a conventional substrate manufacturing system. The operator divides the collected reels into piles in the order of loading so that they can be distinguished in units of loading order, and arranges them on the work desk, and then prepares the setup instruction list for loading order 1 first. As shown in the drawing, the setup instruction list includes a Z-axis number indicating the mounting position of the reel cassette with respect to the mounter, a corresponding child part number, the number of necessary parts set (quantity), a part name, and the like. . First, for example, the worker specifies a child part number corresponding to the Z-axis number 1 from the list, and searches for a reel corresponding to this from a pile of reels in the order of insertion 1 arranged on the work desk. At this time, the child part number specified from the list and the child part number of the label affixed to the reel are collated and searched for. However, the wrong reel may be picked up due to an erroneous reading. Further, the found reel is set in a reel cassette, but a cassette corresponding to the type of the electronic component must be selected. This cassette selection required a wealth of experience and knowledge. For this reason, erroneous selection of the cassette may cause a malfunction of the reel cassette or mounter. In general, as many reel cassettes as the number of necessary Z-axis numbers are prepared, and when there are no electronic parts, the reel cassette is generally replaced. This is to avoid complication of work due to the preparation of a huge amount of reel cassettes.
[0069]
On the other hand, the host computer 20 of the board manufacturing system according to the present embodiment stores the following items in association with each reel cassette in the facility as a cassette management table.
・ Cassette management table
(A) Cassette serial number
(B) Cassette module number
(C) Reel serial number of the set reel
(D) Applicable equipment number
Note that the applicable equipment number in (d) indicates equipment that can be mounted on the reel cassette among equipment such as mounters in the equipment, and a plurality of numbers are usually input. Since some reel cassettes having the same cassette module number cannot be used depending on the equipment, the applicable equipment number is prepared for each reel cassette.
[0070]
FIG. 10 is a schematic diagram for explaining cassette preparation work in the setup process of the substrate manufacturing system according to the present embodiment. First, the operator causes the wireless terminal 29 to read the barcode corresponding to the setup to be performed from among the plurality of barcodes printed in the setup instruction list output in advance. Specifically, the bar code is a bar code of the production instruction number, the production line number, the input order, and the equipment number. Next, the operator picks up one of the reels corresponding to the loading order, and reads the reel serial number of the label affixed thereto in the barcode format. Then, the wireless terminal 29 sends this reading result to the host computer 20 together with the previous barcode reading result (production instruction number, etc.). The host computer that has received these reading results specifies the slave part number and the Z-axis number associated with the received reel serial number from the reel management table (from (A) to (C), (N). ). Further, the cassette module number associated with the specified child part number is specified from the child part number related information table (specified from (1) to (3)). Then, the slave part number, the Z-axis number, and the cassette module number are transmitted to the wireless terminal 29. The wireless terminal 29 having received them displays the production instruction number, production line number, insertion order number, reel serial number, slave unit number, equipment number, Z-axis number, and cassette module number on the image display unit 32. The production instruction number, the production line number, the input order number, and the equipment number each have a character as instruction information. In addition, since the type of the electronic circuit board product is specified by the combination of the production instruction number, the production line number, and the input order number, these combinations have a character as workpiece information.
[0071]
If the cassette module number (3) is “0804SP”, for example, “tape width = 08 mm, pitch = 04 mm, reel size = small, tape material = paper” The rules are given so that the types can be identified functionally. Based on the display of the cassette module number, the operator prepares a reel cassette that will correspond to the cassette module number, and displays the barcode of the cassette serial number, which is the mounting device identification information of the label affixed to the cassette, on the wireless terminal Let 29 read. Upon receiving this reading result, the host computer 20 identifies the cassette module number and the applicable equipment number associated therewith from the cassette management table (identifies (a) to (b), (d)), The cassette module number is sent to the wireless terminal 29. If the cassette module number sent at this time and the cassette module number (E) sent earlier do not match, the wireless terminal 29 issues a combination inadequate alarm “cassette module steadily” to the above image. Displayed on the display unit 32.
[0072]
In the cassette preparation work, unlike the conventional cassette preparation work, the child part number corresponding to the desired Z-axis number is specified from the setup instruction list, and the corresponding reel is searched from the reel pile. There is nothing. Therefore, a situation in which an incorrect reel is selected due to a misreading of the child part number of the list and the child part number of the reel is avoided. In addition, since the reel cassette suitable for the reel is displayed as the cassette module number on the image display unit 32 of the wireless terminal 29, the reel cassette suitable for the reel can be selected even without abundant experience and knowledge. it can. In addition, if a combination of a reel and a reel cassette that does not match it is selected by mistake, an improper combination warning is issued from the wireless terminal 29, so that a malfunction of the reel cassette or mounter due to an inappropriate combination can be avoided. When the combination of reel cassette and reel is appropriate, the wireless terminal 29 sends an OK signal to the host computer 20. The host computer 20 that has received this information next determines whether or not the equipment number based on the production instruction plan is included in the above-mentioned applicable equipment number, and if it is not included, the cassette is not suitable. A signal for displaying an alarm is sent to the wireless terminal 29. As a result, even if the cassette module number is the same, if the reel cassette is not suitable for the equipment (mounter), a cassette inadequate alarm is displayed. If it is included (applicable), after the reel serial number is input to the cassette management table, the status information (G) associated with the reel serial number is changed from “Preparation (50)” to “ Assembling (51) ". As a result, the cassette serial number of the reel cassette and the reel serial number of the reel set in the cassette are associated with each other, and it is specified that the reel is in an assembly state in the setup process.
[0073]
FIG. 19 is a schematic diagram for explaining a cassette mounting operation in a setup process of a conventional substrate manufacturing system. For example, the operator identifies the slave part number corresponding to the Z-axis number (PU) 1 from the setup instruction list, and in the prepared reel cassette corresponding to the slave part number (the cassette in which the reel has already been set). Find out from. Then, a series of operations of mounting it on the Z-axis number 1 of the mounter is performed for all the Z-axis numbers.
[0074]
During this operation, the child part number of the list or the child part number of the label affixed to the reel set in the reel cassette is misread or the child part number corresponding to a different Z-axis number is specified from the list. For example, an incorrect reel cassette may be mounted on the Z-axis number.
[0075]
In addition, although it is a slave part number corresponding to the Z-axis number, a reel that should have been delivered for another facility may be set in the reel cassette. If the reels are set in this way, the reels will not be consumed as planned, and there is a risk that extra work will be forced. Specifically, for example, for the same type of electronic component, a set of five reels that approximately satisfies the required number of 500 pieces and a set of two reels that approximately satisfy the required number of 1900 items are delivered. And The former set is a collection of reels whose parts are almost at the end, whereas the latter set is composed of two reels whose parts are almost close to the initial state (1000). Both sets are issued for the same input order on the same production line, but are issued for different facilities (mounters). Here, it is assumed that reels included in the latter set are erroneously mounted on the mounter as reels included in the former set. Then, since nearly 1000 electronic components are mounted for the required number of 500 components, the mounter does not cut the electronic components indefinitely. On the other hand, in another mounter, even if all of the remaining reels are loaded as the line is operated, there are not enough electronic components. For this reason, the extra work of having to go out of a new reel occurs.
[0076]
FIG. 11 is a schematic diagram for explaining a cassette mounting operation in the setup process of the substrate manufacturing system according to the present embodiment. The operator inputs information indicating that the cassette mounting operation is to be performed to the wireless terminal 29, and then the production instruction number, production line number, loading order number, and equipment number barcode printed on the setup instruction list. Are read sequentially. Then, an arbitrary reel cassette is selected from a plurality of reel cassettes (reel set) corresponding to the insertion order, and the barcode of the cassette serial number of the label affixed to the reel cassette and the reel mounted on it are selected. The wireless terminal 29 is caused to read the barcode of the reel serial number of the attached label. Then, the cassette serial number and reel serial number and the equipment number read earlier are transmitted to the host computer 20. The host computer 20 recognizes the equipment number sent from the wireless terminal 29 as “planned equipment number”, and then specifies the equipment number associated with the sent cassette serial number from the reel management table ( (A) to (L) are specified). Then, the specific result is compared with the “planned equipment number”, and if they do not match, an equipment inadequate signal is transmitted to the wireless terminal 29, and an equipment inadequate alarm such as “Short-spotted biggau” is displayed in the image display unit. 32. By this display, the operator notices that the reel set in the reel cassette has been delivered for another mounter, and can search again for the reel cassette in which the original reel is set. Therefore, it is possible to avoid a situation in which the reel consumption does not go as planned and an extra work is forced.
[0077]
If the comparison results of the equipment numbers match, the host computer 20 specifies the Z-axis number associated with the reel serial number sent together with the cassette serial number from the wireless terminal 29 from the reel management table ((A ) To (N). Then, the specific result is transmitted to the wireless terminal 29 and displayed on the image display unit 32. The operator can easily know the mounting position of the reel cassette with respect to the mounter and mount the cassette only by referring to the Z-axis number displayed on the image display unit 32. In such a cassette mounting, unlike the conventional substrate manufacturing system, the slave part number of the setup instruction list or the slave part number of the reel is mistakenly read, and the slave part number corresponding to a different Z-axis number is specified from the list. As a result, it is possible to avoid a situation in which an incorrect reel cassette is attached to the Z-axis number. The host computer 20 stores a Z-axis confirmation table that associates the Z-axis number with the cassette serial number for all mounters, and is used to identify the Z-axis number from the reel management table. The cassette serial number is input as a cassette serial number associated with the Z-axis number in the Z-axis check table.
[0078]
FIG. 20 is a schematic diagram for explaining the Z-axis checking operation in the setup process of the conventional substrate manufacturing system. Two workers are required for this Z-axis confirmation operation. For this reason, the worker who has done the cassette mounting work alone is forced to go to find another worker who has free hands in order to perform the Z-axis checking work. When a helping worker is found, one person reads out all the Z-axis numbers listed in the setup instruction list in the order of Z-axis number, child part number, and part name. Then, another worker checks whether or not the reel having the content read out is set in the reel cassette that is actually set in the mounter. At this time, the noise of the equipment was so loud that it was difficult to hear, so there was a situation where it was rehearsed many times. In addition, the Z-axis number is determined by the mounting position of the cassette with respect to the mounter, and the child part number is determined by the description of the label attached to the reel set in the cassette. Judgment is made based on the description of the sticker previously attached to the reel by the manufacturer. At this time, if the manufacturer describes the part names in a format different from that of the facility, the confirmation worker will be confused.
[0079]
FIG. 12 is a schematic diagram for explaining the Z-axis checking operation in the setup process of the substrate manufacturing system according to the present embodiment. The operator inputs information indicating that the Z-axis confirmation operation will be performed to the wireless terminal 29, and then the production instruction number, the production line number, the loading sequence number, and the equipment number printed on the setup instruction list are displayed. Have the barcode read sequentially. Then, the cassette serial numbers of all the reel cassettes mounted on the corresponding mounter are sequentially read from the reel cassette on one end side of the mounter. The host computer 20 collates the reading result of the cassette serial number sequentially sent from the wireless terminal 29 with the corresponding cassette serial number in the Z-axis confirmation table, and if it matches, the OK signal is sent to the wireless terminal. 29. Further, if they do not match, a signal for displaying a mismatch alarm such as “PU Gachi Gau” on the image display unit is sent. In such Z-axis confirmation work, unlike the conventional substrate manufacturing system, the Z-axis number can be confirmed by one operator, so that it takes time and effort to search for another worker who has free hands. It can be avoided. In addition, there is no need for two workers to collate the Z-axis number, child part number, and part name listed in the setup instruction list with the Z-axis number, child part number, and part name in the actual mounter. can do. Furthermore, when collating the part names, it is possible to avoid the confusion of the confirmation operator due to the manufacturer attaching the part names to the reels in a format different from that of the facility.
[0080]
The host computer 20 performs a reverse winding check process in parallel with the confirmation of the Z-axis number. Specifically, for a plurality of cassette serial numbers sequentially sent from the wireless terminal 29, the reel serial numbers associated therewith are identified from the cassette management table (identifications (a) to (c)). Then, the reverse winding information associated with the identification result is identified from the reel management table (identification (A) to (I)). If the specific result is “present” data, a reverse winding signal is transmitted to the wireless terminal 29. Receiving this signal, the wireless terminal 29 displays a reverse winding alarm, and the operator changes the NC data of the mounter based on the reverse winding alarm, so that the electronic components are in a normal orientation even when the reverse winding reel cassette is used. Mounted.
[0081]
When the Z-axis checking operation is normally completed, the host computer 20 sets the status information (G) of the reel management table for each reel serial number specified by the Z-axis check to “assemble ( 51) "is updated to" use (52) ". By this update, it is specified that each reel is mounted on the mounter and contributes to mounting.
[0082]
FIG. 21 is a schematic diagram for explaining the reel replacement operation in the mounting process of the conventional board manufacturing system. When a reel cassette with no electronic components is generated, the mounter is configured to notify that fact and interrupt the operation. Based on this notification, the operator removes the reel cassette from the mounter and then removes the reel from the cassette. Then, the child part number of the label affixed to the reel is read, and the corresponding reel is identified and picked up from the pile of reels in the same insertion order, and then set in the reel cassette. At this time, an incorrect reel may be set by misreading the child part number of either reel. Further, in reel replacement, it is necessary to confirm reverse winding in addition to the child part number for both reels. If the pre-replacement reel and the replenishment reel have different winding directions, the NC data for the Z-axis number must be changed so that the electronic component is mounted 180 ° reversed. Because it must. Further, for the supplementary reel, it is necessary to check the model limitation information. If there is a limitation, it is necessary to check whether the limitation is for the electronic circuit board being produced.
[0083]
FIG. 13 is a schematic diagram for explaining the reel replacement operation in the mounting process of the board manufacturing system according to the present embodiment. After removing the reel cassette from the mounter, the operator further removes the reel from the reel cassette. Then, after inputting information to the radio terminal 29 that the reel replacement operation will be performed, the barcode of the reel serial number of the reel removed from the cassette is read. Next, the reel having the same child part number as the child part number printed on the label of the reel is searched from the pile of reels prepared by the exchange delivery, and the barcode of the reel serial number is read. The host computer first identifies the equipment number associated with each reel serial number from the reel management table (identifies (A) to (L)). If both equipment numbers do not match, the host computer sets up the equipment number. Similarly to the time, a facility inadequate alarm such as “Short stubby gau” is displayed on the image display unit 32. Therefore, even when exchanging, the situation where the reels for different mounters are exchanged and the consumption of the reels does not go as planned is avoided.
[0084]
When both the equipment numbers match, the host computer 20 then specifies the child part number and the reverse winding information associated with each reel serial number from the reel management table ((A)). To (C) and (I) are identified). Then, both child part numbers (C) are compared, and if they match, an OK signal is transmitted to the wireless terminal 29. On the other hand, if they do not match, a signal for displaying a false alarm such as “Kobbangachigau” on the image display unit is transmitted. Therefore, based on this display, the worker can avoid the occurrence of mass production of defective products due to mounting the wrong reel on the mounter by replacement.
[0085]
In addition, the host computer 20 collates both specific results for the reverse winding information, and if they do not match, the host computer 20 gives information indicating that the NC data for the Z-axis number on which the reel should be mounted needs to be changed. The image is displayed on the image display unit 32 of the wireless terminal 29. Therefore, the operator can avoid mass production of defective products due to overlooking the difference in winding direction between the old reel and the new reel by changing the NC data based on this display.
[0086]
Further, the host computer 20 identifies the model limitation information associated with the reel serial number of the new reel from the part management table (identifies (A) to (H)), and if the information indicates the limited model, It is determined whether or not the electronic circuit board product is in the order of introduction. If the determination result is “No”, an alarm indicating non-compliance with model limitation is displayed on the image display unit 32 of the wireless terminal 29. Therefore, by changing the replacement reel based on this display, the worker can avoid mass production of defective products by assembling the electronic component on an electronic circuit board that does not conform to the model limitation of the electronic component. . After confirming the model limitation in this way, the host computer 20 updates the status information (G) in the reel management table corresponding to the reel serial number of the new reel to “use (52)”.
[0087]
For used reels that are unlikely to be used for subsequent production, it is necessary to carry out a reversing operation of carrying them to a storage room by a carriage and storing them in a predetermined storage area. In the conventional board manufacturing system, in the case of this re-entry operation, similarly to the warehousing immediately after arrival, wrong storage due to the misreading of the child part number of the label affixed to the reel and the child part number of the shelf label in the storage area I sometimes left a reel in the ward.
[0088]
FIG. 14 is a schematic diagram for explaining the counting work in the counting process of the board manufacturing system according to the present embodiment. In this board manufacturing system, the remaining parts of the reels that have been used are counted by the counting machine 26 shown in FIG. The counting machine 26 detects each electronic component on the carrier tape by sequentially passing the carrier tape wound from the reel to the temporary reel through a transmission type photosensor, and performs counting. The count result is sent to the count information input personal computer 25. The count information input personal computer 25 needs to recognize which reel serial number corresponds to the count result that is sent. This recognition is performed by reading the reel label by the scanner 27. Therefore, a situation in which an incorrect reel serial number is input and the remaining number of parts corresponding to the reel serial number is updated to an incorrect value is avoided. The counting information input personal computer 25 sends the counting result sent from the counting machine 26 to the host computer 20 together with the reel serial number read by the scanner 27. Further, the counting result is printed on a label by the label issuing machine 35 and output. The operator attaches the issued label to the reel. By this sticking, the number of remaining parts in the reel can be known at a glance. The host computer 20 updates the number of remaining parts (F) in the reel management table corresponding to the reel serial number sent from the counting information input personal computer 25 to the value of the counting result, and then manages the reel. The status information (G) in the table is updated to “count (70)”.
[0089]
In this way, for reels that have been used, the inventory of various electronic components in the facility can be accurately grasped by updating the remaining number of parts. In addition, by accurately grasping the inventory, it is possible to suppress the arrival of more than necessary and reduce the number of inventory. It should be noted that the reels that have used up the electronic parts cannot be applied to the counting machine 26. The host computer 20 uses the status information (G) in the reel management table for the reels that are not counted even though the status information (G) has been updated to “use (52)”. To "Done (99)".
[0090]
For reels that have finished counting, check the future use schedule. Specifically, after inputting information indicating that the wireless terminal performs the use schedule confirmation process, the barcode (reel serial number) of the label attached to the reel is read and transmitted to the host computer 20. Then, after identifying the child part number (C) from the reel management table, the host computer 20 confirms whether or not the electronic part corresponding to the child part number is scheduled to be used based on each data of the production plan. To do. If there is, the scheduled production line number is transmitted to the wireless terminal 29. The worker confirms the display of the wireless terminal 29 based on this transmission, and returns the reel to the storage area if there is no plan to use it. If there is a plan to use the reel, the reel is placed on a temporary storage shelf near the displayed production line.
[0091]
The return operation in the substrate manufacturing system according to the present embodiment is performed as follows. That is, after inputting the information indicating that the wireless terminal 29 is to be returned, the barcode (reel serial number) of the label attached to the reel and the barcode (storage section number) of the shelf seal are read. Based on these, the host computer 20 is made to judge whether the return position is appropriate. The host computer 20 determines the suitability by the same process as the process in warehousing described above. If appropriate, the status information (G) in the reel management table corresponding to the reel serial number is updated to “return (80)”.
[0092]
In the board manufacturing system with the above configuration, the time from the arrival to the end of mounting while suppressing the occurrence of mass production of defective products due to various work mistakes such as incorrect mounting, suppressing the difference in storage section of electronic parts and taking out mistakes. Can be flexibly responded to on-demand production requirements by reducing the inventory of various types of electronic components and realizing an order that can effectively use even rare types of electronic components. .
[0093]
In the above description, the substrate manufacturing system including the mounter to / from which the reel cassette is attached / detached as a detachable mounting device has been described. However, the present invention can also be applied to a substrate manufacturing system having a mounter / inserter to / from which a bulk cassette or the like is attached / detached. Is possible. In addition, although the component manufacturing system including the wireless terminal 29 that reads the barcode as identification information formed as an image has been described, the terminal may be a terminal that reads invisible identification information formed magnetically or electronically. . Furthermore, the present invention can be applied not only to a mounter or an inserter but also to an article manufacturing system including another component assembly apparatus that assembles a component on a certain base material.
[0094]
【The invention's effect】
  Claims 1, 2, 3, 4, 5, 6, 7, 8Or 9According to the invention, since it is possible to make the operator aware of an erroneous setting position of the component with respect to the component assembling apparatus, it is possible to suppress a situation in which defective products are mass-produced due to erroneous mounting of components. effective.
[0095]
  Also partIn addition to misplacement of parts to the product assembly device, it is possible to make the operator aware of mistakes in the parts to be replenished to the product assembly device, resulting in mass production of defective products due to misinstallation of components. There is an excellent effect that the situation can be further suppressed.
[0096]
Further, in particular, according to the invention of claim 3, 4 or 5, the part identification information for each packing unit for collectively identifying the received parts for each packing unit and the kind information of the parts are formed as an image. The label is issued by the label issuing means and attached to the packaging container of the part, so that there is an excellent effect that part information management for each packing unit becomes possible.
[0097]
In particular, according to the invention of claim 4 or 5, it is possible to make the operator aware of incompatibility between the type of the component to be mounted on the detachable mounter and the type of the detachable mounter. There is an excellent effect that it is possible to suppress malfunctions such as malfunction of the detachable mounter due to nonconformity.
[0098]
In particular, according to the invention of claim 5, the attachment / detachment with respect to the worker is performed in accordance with the worker's recognition that the detachable mounting device is mounted rather than mounting the component on the component assembling apparatus. By performing the reading operation of the mounting device identification information attached to the type mounting device, there is an excellent effect that it is possible to determine whether or not the component is erroneously mounted on the component mounting portion.
[0099]
In particular, according to the invention of claim 6 or 7, by making the operator aware of the wrong storage position of the parts and suppressing the occurrence thereof, the complication of the work caused by the wrong storage position can be suppressed. There is an excellent effect of being able to.
[0100]
In particular, according to the invention of claim 7, it is possible to suppress complication of work due to the take-out error by notifying the operator of the take-out error from the storage position of the part and suppressing the occurrence thereof. There is an excellent effect of being able to. Furthermore, in addition to mistakes in the storage position of parts, it also has the excellent effect of suppressing the mistakes in taking out the parts and smoothing the flow of parts in the facility and shortening the time from arrival to assembly. .
[0101]
  AlsoClaims 1, 2, 3, 4, 5, 6, 7, 8 or 9According to the invention, there is an excellent effect that different parts information management is possible for each packing unit.
[0102]
  Moreover, all the matters specifying the invention of claim 1 are provided.According to the invention, even if the parts are the same type, there is an excellent effect that it is possible to suppress the occurrence of mass production of defective products caused by assembling a part that does not exhibit desired characteristics onto a base material.
[0103]
  Moreover, all the matters specifying the invention of claim 2 are provided.According to the invention, even in the case of the same type of part, a part having a different packaging mode from the part that has been previously mounted is replenished to the part mounting part of the part assembling apparatus, and the part assembling apparatus is left as it is. There is an excellent effect that it is possible to suppress the occurrence of mass production of defective products caused by misidentifying that the same parts as the previous parts are replenished.
[0104]
  In particular, the claims8According to this invention, there is an excellent effect that it becomes possible to accurately grasp the inventory of various parts in the facility. In addition, there is an excellent effect that it is possible to reduce the stock quantity by suppressing the arrival of unnecessary parts. Furthermore, there is also an excellent effect that it is possible to flexibly respond to on-demand production demands of small quantities, various varieties, and short delivery times.
[0105]
  In particular, the claims9According to the invention, since the movement of the terminal is not restricted by the cable from the host computer, there is an excellent effect that the mobility of the terminal can be improved.
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating an example of a schematic configuration of a mounter that is a component assembling apparatus in a board manufacturing system according to an embodiment.
FIG. 2 is a perspective view showing an example of a reel cassette and a reel set in the reel cassette.
FIG. 3 is a block configuration diagram showing the substrate manufacturing system.
FIGS. 4A and 4B are schematic diagrams for explaining forward winding and reverse winding of reels, respectively.
FIG. 5 is a flowchart showing the flow of electronic components in a facility provided with the substrate manufacturing system.
FIG. 6 is a schematic diagram for explaining a label issuing operation in a warehousing process of the substrate manufacturing system.
FIG. 7 is a perspective view showing a wireless terminal of the board manufacturing system.
FIG. 8 is a schematic diagram for explaining warehousing work in the substrate manufacturing system.
FIG. 9 is a schematic diagram for explaining a delivery operation in the substrate manufacturing system.
FIG. 10 is a schematic diagram for explaining cassette preparation work in a setup process of the substrate manufacturing system.
FIG. 11 is a schematic diagram for explaining a cassette mounting operation in a setup process of the substrate manufacturing system.
FIG. 12 is a schematic diagram for explaining a Z-axis checking operation in a setup process of the substrate manufacturing system.
FIG. 13 is a schematic diagram for explaining a reel replacement operation in a mounting process of the substrate manufacturing system.
FIG. 14 is a schematic diagram for explaining the counting work in the counting process of the substrate manufacturing system.
FIG. 15 is a schematic diagram for explaining a label issuing operation in a warehousing process of a conventional substrate manufacturing system.
FIG. 16 is a schematic diagram for explaining a warehousing operation in the substrate manufacturing system.
FIG. 17 is a schematic diagram for explaining a delivery operation in the substrate manufacturing system.
FIG. 18 is a schematic diagram for explaining cassette preparation work and assembly work in the setup process of the substrate manufacturing system.
FIG. 19 is a schematic diagram for explaining a cassette mounting operation in a setup process of the substrate manufacturing system.
FIG. 20 is a schematic diagram for explaining a Z-axis checking operation in a setup process of the substrate manufacturing system.
FIG. 21 is a schematic diagram for explaining a reel replacement operation in a mounting process of the substrate manufacturing system.
[Explanation of symbols]
1 Mounter (component assembly device)
2 Reel cassette (detachable mounter)
3 cassette moving table (multiple parts mounting section)
5 reels
20 Host computer
28 SS wireless LAN (part of data communication means)
29 Wireless terminal

Claims (9)

In an article manufacturing system including a component assembling apparatus having a plurality of component mounting portions that can mount different components, and an assembly portion that takes out the components from each component mounting portion and assembles them on a base material,
And breed information which is part of the type of identification information, a packing unit separate component identification information for identifying together the components for respective packaging units, information of the component mounting portion corresponding to the packing unit separate component identifying information Is stored in association with each other, the component identification information for each packing unit, and the information added to the component identification information for each packing unit for each packing unit. A host computer that stores and associates limited information that is information that limits the type of the assembly workpiece to be assembled, and stores workpiece information that is information of the assembly workpiece ;
Rutotomoni provided a terminal having a reading means for reading the packing unit specific part identification information,
Reading result of 該梱 packaging units by component identifying information by said terminal, and said read the mounting section information associated with the result, to determine the presence or absence of erroneous component mounting for the component mounting portion based the determination result In accordance with the data processing to generate a false mounting alarm from the terminal ,
Based on the packaging unit-specific component identification information read at the first timing by the terminal, and the packaging unit-specific component identification information read at the second timing different from the first timing, Determining the identity of the part type corresponding to the packaging unit-specific part identification information read at the first timing and the part type corresponding to the packaging unit-specific part identification information read at the second timing And data processing for determining whether or not there is an erroneous mounting of the component on the component mounting portion based on the determination result,
Based on the limited information associated with the packaging unit-specific component identification information read by the terminal and the workpiece information, the component corresponding to the packaging unit-specific component identification information, and the assembly workpiece articles of determining the suitability, depending on the determination result, and data processing for generating the part unsuitable alarm from said terminal, characterized in that so as to be performed by cooperation between said terminal and said host computer Manufacturing system.   In an article manufacturing system including a component assembling apparatus having a plurality of component mounting portions that can mount different components, and an assembly portion that takes out the components from each component mounting portion and assembles them on a base material,
Product type information that is identification information of the type of part, part identification information for each packing unit for identifying the parts collectively for each packing unit, and information of the part mounting unit corresponding to the part identification information for each packing unit Is stored in association with each other, the component identification information for each packaging unit, and the information added to the component identification information for each packaging unit for each packaging unit, and the orientation of the above-mentioned component in the packaging A host computer that stores the packaging mode information, which is information to indicate,
A terminal having reading means for reading the part identification information for each packing unit, and
Based on the reading result of the part identification information for each packing unit by the terminal and the mounting part information associated with the reading result, the presence / absence of erroneous mounting of the part on the part mounting part is determined. In response to the data processing to generate an erroneous mounting alarm from the terminal,
Based on the packaging unit-specific component identification information read at the first timing by the terminal, and the packaging unit-specific component identification information read at the second timing different from the first timing, Determining the identity of the part type corresponding to the packaging unit-specific part identification information read at the first timing and the part type corresponding to the packaging unit-specific part identification information read at the second timing And data processing for determining whether or not there is an erroneous mounting of the component on the component mounting portion based on the determination result,
The packaging mode information associated with the packaging unit-specific component identification information read at the first timing by the terminal, and the packaging unit-specific component identification information read at the second timing by the terminal Data processing for generating a packing mode mismatch alarm from the terminal based on a result of comparing the packing mode information to be performed in cooperation with the terminal and the host computer. Article manufacturing system. In the article manufacturing system according to claim 1 or 2,
Providing a label issuing means for issuing a label on which the unit identification information for each packing unit is formed based on a signal from the host computer;
An article manufacturing system, wherein the host computer is configured to cause the label issuing means to perform data processing for issuing a label in which the part identification information for each packing unit is formed. The article manufacturing system according to claim 3,
The component assembly apparatus uses a plurality of detachable mounters configured to be capable of mounting a plurality of components of the same type and detachable from the component mounting portion.
The host computer stores the component identification information for each packing unit and the device type information that is the identification information of the type of the detachable mounting device corresponding thereto,
The host computer and the terminal cooperate with each other to determine the type of the component and the type of the detachable mounting device based on the model information associated with the component identification information for each packing unit read by the terminal. An article manufacturing system which performs data processing for determining suitability and generating a combination inadequate alarm from the terminal according to the determination result. The article manufacturing system according to claim 4,
The plurality of the detachable mounters each have mounter identification information that is identification information individually corresponding to these,
The host computer stores the device identification information and the device type information corresponding to the device identification information,
The reading means is capable of reading the mounting device identification information in addition to the packaging unit-specific component identification information,
The host computer and the terminal cooperate with each other to associate the device type information associated with the packaging unit-specific component identification information read by the terminal with the on-board device identification information read by the terminal. The compatibility is determined based on the comparison with the device type information, and the packaging unit identification information and the mounting device identification information are associated with each other according to the determination result and stored in the host computer. Data processing for determining whether or not a component is erroneously mounted on the component mounting portion based on the mounting portion information further associated with the package unit-specific component identification information associated with the read mounting device identification information The article manufacturing system characterized by implementing. The article manufacturing system according to claim 1, 2, 3, 4 or 5,
The host computer stores storage position information, which is identification information of a storage position of a part corresponding to the product information, and the product information or product association information associated therewith,
The reading means is capable of reading the storage position information, product type information or product type association information in addition to the packaging unit specific part identification information,
The host computer and the terminal cooperate with each other to determine the compatibility between a part and its storage position based on the storage position information, product type information, or product type association information read by the terminal, In response, a data processing for generating a storage position inappropriateness alarm from the terminal is implemented. The article manufacturing system according to claim 6,
The host computer stores instruction information for instructing an operator to take out a part from the storage position,
The type of parts to be taken out based on the instruction information transmitted from the host computer in cooperation with the host computer and the product type information or the part identification information by packing unit read by the terminal The article manufacturing system is characterized in that data processing is performed to determine whether or not the product is appropriate and take out from the terminal according to the determination result to generate a product type inappropriateness alarm . The article manufacturing system according to any one of claims 1 to 7 ,
Said host computer, and stores the unit number of remaining information, which is information and are and information of number of remaining components per the packing unit to be added to the packing unit separate component identification information for each of the packing units, and, by the operator article manufacturing system, characterized in that on the basis of the input operation is to update the value of the unit remaining number information. The article manufacturing system according to claim 1, 2, 3, 4, 5, 6, 7, or 8 .
What is claimed is: 1. An article manufacturing system comprising: a means for performing data communication wirelessly as data communication means for enabling data communication between the host computer and the terminal.

Images