JP2009130161A - System and method for verifying component - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system and method for verifying a component that collates objects other than specified objects to be verified without taking much care and time. <P>SOLUTION: The system includes scanners S1-S4 reading information code added to a component and each individual information code of a plurality of objects to be collated, an object range setting means 20 for setting the range of objects to be collated as a component from a plurality of objects, and an object range changing means 21 for changing the object range to the range including the objects to be collated when the individual information code is read by an object which is not in the prescribed object range. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a component verification system that performs a component verification operation based on an information code attached to a component.

In a component mounting apparatus, it is necessary to replenish so that components used for mounting are not interrupted. For example, in the case of a tape feeder, a new tape is connected to an existing tape, in the case of a bulk feeder, the parts are loaded into a replenishing tank, and in the case of a tray feeder, a new tray is arranged in a rack. Do. Since this part is manually replenished, the information code attached to the part is read with a scanner prior to replenishment, and the part identification information obtained by analyzing the information code is compared with the feeder-specific identification information. By doing so, the mistake which replenishes the part which is not compatible with a feeder accidentally is prevented beforehand (refer patent document 1).
Japanese Patent Laid-Open No. 2003-110296

  In recent years, in response to the trend toward a large variety of components to be mounted on a board, a production line in which a plurality of component mounting apparatuses are arranged in parallel is constructed, and components are mounted in stages by sequentially feeding the board to each component mounting apparatus. Methods have become widely used. A component verification system has been constructed that enables verification with a smaller number of scanners by performing verification with a single scanner as a target for feeders mounted on multiple component mounting devices. . In this component verification system, the target range in which the scanner performs component verification is preset by a computer that manages the production line.

  However, if a feeder set as the target range of a certain scanner wants to perform component verification by another scanner, or if a certain scanner fails, a scanner with a different target range can be used. If possible, efficient and rational collation can be performed, but the conventional parts collation system requires changing the settings of the management computer itself, which takes time and effort. I could not respond.

  Therefore, an object of the present invention is to provide a component collation system that can perform collation for a collation target outside the set target range without taking time and effort.

  The component verification system according to claim 1, wherein the component verification system performs a component verification operation based on the information code added to the component, and the information code assigned to the component and the information code unique to each of a plurality of verification targets Reading means, a setting means for setting a target range for parts comparison among a plurality of verification targets, and a target range when the information code unique to the verification target outside the set target range is read. A change means for changing to a range including the verification target is provided.

  The component verification system according to claim 2 is the component verification system according to claim 1, wherein the verification target is a feeder arranged in a plurality of component mounting apparatuses constituting a production line. Perform collation work on compatibility with supplied parts.

The component verification system according to claim 3 is the component verification system according to claim 2,
A plurality of feeders are respectively mounted on the front side and the rear side of each component mounting apparatus, and the target range is set as a unit of a plurality of feeders arranged on the front side and the rear side of each component mounting apparatus.

  The component verification system according to claim 4 is the component verification system according to claim 3, wherein the reading unit is attached to the front side and the rear side of each component mounting apparatus as the unique information code, respectively. Read the information code.

  According to a fifth aspect of the present invention, there is provided a method for collating parts, comprising: reading means for reading an information code attached to a part and an information code unique to each of a plurality of collation targets; and a target range for parts collation from the plural collation targets A component verification method in a component verification system that performs a component verification operation based on an information code attached to a component, wherein an information code unique to a verification target outside the set target range is read. The target range is changed to a range that includes the verification target.

  According to the present invention, even if the collation target to be collated with the component is not set in the collation target range in advance, the collation target is included only by reading the information code unique to the collation target. Since the collation target range can be changed, parts collation can be performed for a collation target outside the set range without taking time and effort.

  Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a schematic configuration diagram of a production line composed of a plurality of component mounting apparatuses, FIG. 2 is a diagram showing information codes attached to reels for storing components, and component information read from the information codes, and FIG. 3 is component verification. It is a block diagram which shows the structure of a system.

  The component mounting apparatuses M1 to M5 are mounted with a mounting head, a feeder, a transport conveyor, and the like (not shown), and mount a component picked up from the feeder by the mounting head onto a substrate transported to a predetermined position by the transport conveyor. The plurality of component mounting apparatuses M1 to M5 constitute a production line arranged in parallel in the board conveying direction, and the board passes through the component mounting apparatuses M1 to M5 in order from the component mounting apparatus M1 to the component mounting apparatus M5. Transported production line. Each component mounting apparatus M1 to M5 is pre-assigned a component to be mounted on the board and a location to be mounted, and each of the component mounting apparatuses M1 to M5 mounts the component in stages on the board transported on the production line. Each of the component mounting apparatuses M1 to M5 is connected to the management computer 6 so as to be capable of electrical communication. The management computer 6 individually controls each of the component mounting apparatuses M1 to M5, thereby performing a mounting operation stepwise on the production line. Control.

  The scanners S1 to S4 read the information code attached to the component to be supplied to the feeders of the component mounting apparatuses M1 to M5 (in this case, the information code 8 attached to the reel 7 as a component storage medium) It is converted into a signal and sent to the management computer 6. The management computer 6 analyzes the component information 9 corresponding to the information code 8 from the electrical signals sent from the scanners S1 to S4, and checks whether the component to be supplied is a component that the feeder requires replenishment. To do.

It is managed in advance by the management computer 6 as to which feeder each scanner S1 to S4 is used to collate the parts supplied to. Here, the scanner S1 is used for collating the components supplied to the feeders arranged on the front side of the component mounting apparatuses M1 to M3, and the scanner S2 is supplied to the feeder arranged on the front side of the component mounting apparatuses M4 and M5. The scanner S3 is used for collation of components, and the scanner S3 is used for collation of components supplied to the feeders arranged on the rear side of the component mounting apparatuses M1 to M3. The scanner S4 is arranged on the rear side of the component mounting apparatuses M3 to M5. Used to verify the parts supplied to the feeder. Therefore, for example, when collating the components to be supplied to the feeder arranged on the front side of the component mounting apparatus M1, the information code 8 attached to the reel 7 storing the components is read by the scanner S1. Similarly, the scanner S2 is used when collating the components supplied to the feeder arranged on the front side of the component mounting apparatus M4.

  Next, the configuration of the component verification system will be described with reference to FIG. The component verification system includes scanners S1 to S4 and a management computer 6. The management computer 6 includes a processing unit 10, a storage unit 11, an input unit 12, and an output unit 13. Each of the component mounting apparatuses M1 to M5 includes data storage units 14 to 18 that store component information of components supplied to the feeder. The processing unit 10 individually controls each of the component mounting apparatuses M1 to M5 based on the control program, thereby controlling the mounting operation performed in stages on the production line, as well as the collating unit 19 and the target range setting unit 20 The target range changing unit 21 is provided to perform control related to component collation using each of the scanners S1 to S4.

  The collation unit 19 collates the component information 9 analyzed by reading the information code 8 attached to the component with a scanner and the component information requested by the feeder. As a result of the collation, when the compatibility between the component and the feeder is confirmed, the component information is stored in the data storage unit of the component mounting apparatus in which the feeder as the component supply destination is arranged. On the other hand, when the compatibility between the feeder and the component is not confirmed, an error process such as a warning is performed so that the operator does not supply the component.

  The target range setting unit 20 sets a target range to be collated for each of the scanners S1 to S4. Since the collation target here is a feeder, it is set as to which feeder is the target range of which scanner. The setting of the target range is not limited to a method of setting from the input unit 12 using an input means such as a keyboard. A method of setting by reading with a scanner is also possible. In this case, the target range is set as a unit of a plurality of feeders arranged on the front side and the rear side in each of the component mounting apparatuses M1 to M5. In the example shown in FIG. By reading the information code 22 attached to the front side of M1 to M3, the feeders arranged in these are set as the target range, and the information code 22 attached to the front side of the component mounting apparatuses M4 and M5 is read by the scanner S2. Thus, the feeders arranged in these are set as the target range.

  The target range changing unit 21 changes the target range set by the target range setting unit 20 for each of the scanners S1 to S4. The change of the target range is performed by reading the unique information code 22 attached to the front side and the rear side of each of the component mounting apparatuses M1 to M5 with each scanner S1 to S4. In the example shown in FIG. 1, the feeder disposed on the front side of the component mounting apparatuses M1 to M3 is set as the target range for the scanner S1, and the front side of the component mounting apparatuses M4 and M5 is set for the scanner S2. However, when the unique information code 22 attached to the front side of the component mounting apparatus M3 is read by the scanner S2, for example, the target range of the scanner S2 is set to the front side of the component mounting apparatus M3. It is changed to the range including the feeder arranged in. Similarly, for the other scanners S1, S3, and S4, the target range of each scanner S1, S3, and S4 can be changed by simply reading the unique information code 22 attached to each of the component mounting apparatuses M1 to M5. it can.

For example, when a worker is collating a component to be supplied to a feeder disposed on the front side of the component mounting apparatus M1 using the scanner S1, it is desired to supply the component to a feeder disposed on the front side of the component mounting apparatus M3. In this case, when another operator who has the scanner S2 reads the unique information code 22 attached to the front side of the component mounting apparatus M3 with the scanner S2, the scanner S2 can be used for collation of the components. Become.

  Conventionally, since it has been necessary to directly access the management computer 6 to change the setting of the target range, it takes time and effort. As a result, a waiting time is required for parts verification, resulting in a decrease in production efficiency. However, since it is possible to change the setting of the target range simply by reading the information code 22 with each of the scanners S1 to S4, it is possible to quickly cope with the waiting time when parts are supplied.

  There are various ways to change the setting of the target range, and the target range that has been changed at a certain point in time may be maintained in subsequent verification work, and is effective only for one verification process. It may be. Further, the information code 22 does not necessarily have to be attached to the component mounting apparatuses M1 to M5 itself, and an information code corresponding to each of the component mounting apparatuses M1 to M5 is attached to a separately prepared verification sheet or the like. You may make it read.

  According to the present invention, even if the collation target to be collated with the component is not set in the collation target range in advance, the collation target is included only by reading the information code unique to the collation target. Since it is possible to change the verification target range, it is possible to perform component verification for a verification target outside the set range without taking time and effort. This is useful in the field of mounting components on a configured production line.

Schematic configuration diagram of a production line composed of multiple component mounting devices The figure which shows the components information read from the information code attached | subjected to the reel which accommodates components, and an information code Block diagram showing the configuration of the parts verification system

Explanation of symbols

8, 22 Information code 19 Verification unit 20 Target range setting unit 21 Target range change unit S1, S2, S3, S4 Scanner M1, M2, M3, M4, M5 Component mounting device

Claims (5)

In the component verification system that performs component verification based on the information code attached to the component,
Reading means for reading information codes attached to parts and information codes unique to a plurality of verification targets, setting means for setting a target range for parts verification from a plurality of verification targets, and out of the set target range A component verification system comprising: a changing unit that changes a target range to a range including the verification target when an information code unique to the verification target is read.   The component verification system according to claim 1, wherein the verification target is a feeder arranged in a plurality of component mounting apparatuses constituting a production line, and performs a verification operation regarding compatibility between the feeder and a component supplied to the feeder.   A plurality of feeders are respectively mounted on the front side and the rear side of each component mounting apparatus facing each other, and the target range is set as a unit of a plurality of feeders respectively disposed on the front side and the rear side of each component mounting apparatus. 2. The component verification system according to 2.   The component verification system according to claim 3, wherein the reading unit reads information codes respectively attached to a front side and a rear side of each component mounting apparatus as the unique information code. A reading unit that reads an information code attached to a component and an information code that is unique to each of a plurality of verification targets, and a setting unit that sets a target range for component verification from the plurality of verification targets. A component verification method in a component verification system that performs component verification based on an information code,
A component collation method for changing a target range to a range including the collation target when an information code unique to the collation target outside the set target range is read.

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