摘要:
Image data of various kinds of components and component text data required for mounting of components, e.g., shapes, dimensions, packing forms, colors, and the like of the components, are stored in a storage medium in a manner to be read out as part of a component electronic catalog. The storage medium is used to make a search for components on a screen and automatically read out necessary component text data. The component electronic catalog can be used not only to search for components on a screen, similar to a conventional component electronic catalog, but to automatically read out component text data so as to automatically form mounting data for components to be mounted which are selected through the screen search.
摘要:
Image data of various kinds of components and component text data required for mounting of components, e.g., shapes, dimensions, packing forms, colors, and the like of the components are stored in a storage medium in a manner to be read out as part of a component electrical catalog. The storage medium is used to make a search for components on a screen and automatically read out necessary component text data. The component electronic catalog can be used not only to search for components on a screen, similar to a conventional component electronic catalog, but to automatically read out component text data so as to automatically form mounting data for components to be mounted which are selected through the screen search.
摘要:
Image data of various kinds of components and component text data required for mounting of components, e.g., shapes, dimensions, packing forms, colors, and the like of the components, are stored in a storage medium in a manner to be read out as part of a component electronic catalog. The storage medium is used to make a search for components on a screen and automatically read out necessary component text data. The component electronic catalog can be used not only to search for components on a screen, similar to a conventional component electronic catalog, but to automatically read out component text data so as to automatically form mounting data for components to be mounted which are selected through the screen search.
摘要:
A method for forming mounting data, includes reading component text data corresponding to to-be-mounted components of individual mounting positions stored in a component electronic catalog, according to mounting-position data including mounting angles relating to the mounting positions formed on the to-be-mounted components, by using the component electronic catalog that has stored image data concerning various types of components including the to-be-mounted components as well as component text data necessary for component mounting including configurations and dimensions of the components. The method also includes forming mounting data for a mounter to receive components and mount them to specified mounting positions according to the mounting-position data as well as the component text data read for the individual mounting components concerning the to-be-mounted components corresponding to the mounting-position data.
摘要:
Provided is a maintenance method which makes it possible to collectively and quantitatively detect maintenance timings of parts included in respective devices in a component mounter. A management apparatus determines a position of an equipped device using a RF-tag reader/writer (S1001). Then, from the RF tag, the RF-tag reader/writer obtains maintenance information regarding parts in the device (S1002). Then, the determination unit determines a maintenance timing of each of the parts, by comparing maintenance information recorded in a maintenance reference information storage unit to the maintenance information of each part which has been obtained at S1002 (S1003). Next, if it is not yet the maintenance timing (NO at S1003), then the determination unit (608) ends the determining processing. On the other hand, if it is the maintenance timing (YES at S1003), then the determination unit (608) instructs a warning unit to provide warning (S1004) and stops driving of the component mounter.
摘要:
A component verification method for a mounter (100) that is capable of performing component verification with less labor, is comprised of: a position specification step (S12A) of specifying a placement position in the mounter (100) where a component tape is placed; a read step (S13) of reading component information from an IC tag (426b) that is attached to the component tape or a reel (426); and a verification step (S14) of verifying the component information and the placement position against component arrangement data that indicates components that should be mounted onto the board as well a position where the component tape should be placed.
摘要:
A component verification method for a mounter (100) that is capable of performing component verification with less labor. The method includes a position specification step (S12A) of specifying a placement position in the mounter (100) where a component tape is placed; a read step (S13) of reading component information from an IC tag (426b) that is attached to the component tape or a reel (426); and a verification step (S14) of verifying the component information and the placement position against component arrangement data that indicates components that should be mounted onto the board as well a position where the component tape should be placed.
摘要:
An optimizing apparatus for optimizing a mounter equipped with a line gang pickup head which picks up a plurality of components and mounts them on a board. The apparatus includes a nozzle set determination unit for determining a nozzle set which reduces a mounting time in view of a number of times interchanging pickup nozzles and a total task number necessary for mounting the plural components, a nozzle pattern determination unit for determining an optimal nozzle pattern as well as an arrangement of pickup nozzles (nozzle arrangement) at a nozzle station, based on the nozzle set determined by the nozzle set determination unit, and Z-axis arrangement/mounting order optimization unit for determining an array order of component feeders and a mounting order of components while maintaining the determined nozzle set and nozzle pattern.
摘要:
A plurality of patterns having the same component placement structure is included in the board, said plurality of patterns corresponding respectively to a plurality of sub-boards obtained by partitioning said board. The optimization method of an order of component mounting i) includes a step of optimizing the order of component mounting for any one pattern among the plurality of patterns (S2), a step of calculating a quotient and a remainder by dividing the total number of the patterns included in the board by the number of mounters (S4), a step of determining the quotient as the number of patterns to be allocated in the case where the remainder is zero (S6), and a step of i) determining a number, which is the quotient plus one, as the number of patterns to be allocated to the same number of the mounters as the remainder, starting from the mounter in a process farthest upstream, and ii) determining the quotient as the number of patterns to be allocated to the rest of the mounters, in the case where the remainder is one or greater (S6 to S10), and a step of allocating the allocated number of patterns, to each of the mounters (S12).
摘要:
An optimizing apparatus (300a) for a mounter equipped with a line gang pickup head which picks up a plurality of components and mounts them on a board comprises: a nozzle set determination unit (305a) for determining a nozzle set which reduces a mounting time in view of the number of times interchanging pickup nozzles and a total task number necessary for mounting the plural components; a nozzle pattern determination unit (305b) for determining an optimal nozzle pattern as well as an arrangement of pickup nozzles (nozzle arrangement) at a nozzle station (119), based on the nozzle set determined by the nozzle set determination unit (305a); and Z-axis arrangement/mounting order optimization unit (305c) for determining an array order of component feeders and a mounting order of components while maintaining the determined nozzle set and nozzle pattern.