JP5396529B2 - Electric circuit board assembly system - Google Patents

Description

  The present invention relates to an electric circuit board assembly system for assembling an electric circuit board by mounting electric parts (including electronic parts) on a circuit board.

  An electric circuit board assembly line is often configured by arranging a plurality of electric circuit board assembly-related devices for performing electric circuit board assembly-related work related to the work of assembling an electric circuit board by mounting electric parts on the circuit board. . In this case, it is normal that each electric circuit board assembly-related device is provided with a control device independent of each other, and conventionally, each device has been operated separately by an operator. For example, when starting up the electric circuit board assembly line, the operator has turned ON the start switch of each device. The same applies when stopping the operation of the line, and other operations must be performed separately for each device, and the work efficiency of the operator is poor, and the management of the electric circuit board assembly line becomes complicated. It was inevitable.

  The present invention is based on the above circumstances and has been made with the object of improving the work efficiency of workers on the electric circuit board assembly line of the electric circuit board assembly system and facilitating line management.

  According to the present invention, (a) an electric circuit board assembly line including a plurality of electric component mounting machines each including a display and a control device, and performing a component mounting operation for mounting an electrical component on a circuit board, and (b) the plurality An electrical circuit board assembly system including a network connecting a plurality of control devices of a plurality of electrical component mounting machines, wherein the plurality of electrical component mounting machines circuit electrical components assigned to each electrical component mounting machine In addition to mounting on the board, in the display of any one of the plurality of electrical component mounting machines, the operator is an electrical component mounting machine other than the electrical component mounting machine having the display. An electric circuit board assembly system characterized in that information can be acquired.

  According to the present invention, an operator can obtain information on any one of a plurality of electrical component mounting machines constituting the electrical circuit board assembly line other than the electrical component mounting machine including the display. It is possible to improve the work efficiency of the worker and facilitate line management.

Aspects of the Invention

  According to the invention described in the present specification, an electric circuit board assembly line, an electric circuit board manufacturing method, an electric circuit board assembly line control program, and the like of the following aspects can be further obtained. As with the claims, each aspect is divided into sections, each section is numbered, and is described in a form that cites the numbers of other sections as necessary. This is merely for the purpose of facilitating the understanding of the invention described in this specification, and is interpreted that the technical features described in this specification and combinations thereof are limited to those described in the following sections. Should not be done. In addition, when a plurality of items are described in one section, it is not always necessary to employ the plurality of items together. It is also possible to select and employ only some items.

(1) A plurality of electrical circuit board assembly-related devices each including an independent control device and performing electrical circuit board assembly-related work related to the work of assembling an electrical circuit board by mounting electrical components on the circuit board; And connecting one of the plurality of devices as a master device and the other as a slave device, (a) controlling the slave device by operating the master device, and (b) from the master device to the slave device. It is possible to supply at least one of information on an electric circuit board to be assembled and (c) supply the status of the slave device from the slave device to the master device and grasp the status of the slave device in the master device. An electrical circuit board assembly line characterized by
A plurality of electric circuit board assembly-related devices are connected by a communication device, and one of the plurality of devices is a master device and the rest is a slave device, and the slave device can be controlled by operating the master device. This eliminates the need for the worker to move to the position of the slave device. Further, if it is possible to supply information on the electric circuit board to be assembled from the master device to the slave device, it is not necessary to input the information to each of the plurality of devices. Furthermore, if the status of the slave device is supplied from the slave device to the master device, and the status of the slave device can be grasped in the master device, the entire electric circuit board assembly line can be easily controlled. Further, the worker can know the status of the slave device while staying at the position of the master device, and the line can be easily monitored. If at least one of the above (a), (b), and (c) is made possible, the usability of the electric circuit board assembly line is improved, and all of (a), (b), and (c) are possible. This makes it possible for the operator to perform the entire operation of the electric circuit board assembly line, input of control information, monitoring, etc. without leaving the master device, and the usability of the electric circuit board assembly line is particularly improved. In addition, if the master device has a function of automatically monitoring and controlling the slave device, it becomes easy to control a plurality of electric circuit board assembly-related devices in relation to each other and produce an electric circuit board assembly line. Efficiency can be increased.
(2) The electric circuit board assembly line according to (1), wherein the master device and the slave device can be interchanged.
If the master device and the slave device can be interchanged, when the master device cannot be used due to a failure or the like, the slave device can function as the master device, and the electric circuit board assembly-related work can be continued without any trouble. Alternatively, if for some reason the worker needs to stay in the vicinity of a specific electrical circuit board assembly related device, the entire line can be managed without any trouble by using the specific electrical circuit board assembly related device as a master device. can do. Alternatively, depending on the type of electric circuit board to be assembled, it may not be necessary to operate a specific electric circuit board assembly-related device, and when that device happens to be a master device, another electric circuit board assembly-related device May be the master device.
(3) The electric circuit board assembly line according to (2), wherein each of the plurality of electric circuit board assembly-related devices has a function of operating as the master device and the slave device.
An electric circuit board assembly line with a great degree of freedom can be obtained.
(4) The electric circuit board assembly line according to any one of (1) to (3), wherein each of the plurality of electric circuit board assembly-related devices has the same function.
If each of the plurality of electric circuit board assembly-related devices has the same function as each other, any one of these devices operates as a master device, and the remaining devices operate as slave devices. This increases the degree of freedom in using the electrical circuit board assembly line. In addition, the master device and the slave device can be easily replaced.
(5) The electrical circuit board assembly line according to any one of (1) to (4), wherein each of the plurality of electrical circuit board assembly-related devices is an electrical component mounting machine.
(6) The status data of the slave device can be supplied from the slave device to the master device, and the master device can control the electric circuit board assembly line based on the status data. The electric circuit board assembly line according to any one of the items).
For example, when a mounting error of an electrical component occurs in a slave device, resulting in a defective circuit board, the master device prohibits a device downstream from the slave device from performing work on the defective circuit substrate. It is possible to perform at least one of the above and increasing the number of circuit boards to be operated by one on the device upstream of the slave device. In addition, if one of the slave devices is unable to supply one type of electrical component, and there is a device that can be equipped with the electrical component among the other devices, the master device is connected to the device. It is also possible to mount extra electrical components.
(7) The electrical circuit board assembly according to any one of (1) to (5), wherein board information, which is information relating to the circuit board, can be transmitted from the master device to the slave device or between the slave devices. line.
The board information may be supplied directly to all slave devices from the master device, or may be supplied in order, such as from the master device to one slave device and from that slave device to another slave device. Good.
(8) A plurality of electric circuit board assembly-related devices are arranged side by side, each having an independent control device, and performing electrical circuit board assembly-related work related to the work of assembling the electric circuit board by mounting electrical components on the circuit board. A method of manufacturing an electric circuit board by an electric circuit board manufacturing line,
One of the plurality of electric circuit board assembly-related devices is a master device and the rest is a slave device. (A) The slave device is controlled by operating the master device; and (b) From the master device to the slave device. At least one of supplying information on the electric circuit board to be assembled and (c) supplying the status of the slave device from the slave device to the master device and grasping the status of the slave device in the master device An electrical circuit board manufacturing method comprising manufacturing an electrical circuit board.
The feature described in any one of the items (2) to (7) can be applied to the method for manufacturing an electric circuit board according to this item.
(9) A plurality of electrical circuit board assembly-related devices are arranged side by side, each having an independent control device, and performing electrical circuit board assembly-related work related to the work of assembling the electrical circuit board by mounting electrical components on the circuit board. A computer-executable program for controlling the electrical circuit board assembly line,
A master program for causing one of the plurality of electric circuit board assembly-related devices to function as a master device;
One unit different from the one electrical circuit board assembly-related device: (a) controlling the other unit by operating the master unit; and (b) from the master unit to the other unit, At least one of supplying information on an electrical circuit board to be assembled; and (c) supplying the status of the other unit to the master device and grasping the status of the other unit in the master device. A program for controlling an electrical circuit board assembly line, comprising: a slave program for causing the slave device to function as a slave device capable of performing
The feature described in any one of the items (2) to (7) can be applied to the electric circuit board assembly line control program of this item.
(10) A recording medium on which the computer program for controlling an electric circuit board assembly line described in (9) is recorded so as to be readable by a computer.
(11) (a) An electric circuit board assembly line including a plurality of electric component mounting machines each including an operation device and a control device, and performing a component mounting operation for mounting an electrical component on a circuit board under the control of the control device; (b) a host computer storing production plan information of the electric circuit board assembly line and a mounting program for each of a plurality of types of circuit boards; and (c) connecting the plurality of control devices to each other and the host computer. An electrical circuit board assembly system including the network, the information on the production plan supplied from the host computer via the network and the mounting of each of the plurality of types of circuit boards. Are controlled based on the program, and any electrical component mounting is performed by the operator of each operating device of the plurality of electrical component mounting machines. An electrical machine is characterized in that it is possible to specify a machine, and it is possible to control other electrical component mounting machines and obtain information on these other electrical component mounting machines by the designated electrical component mounting machine control device. Circuit board assembly system.
(12) The electric circuit board assembly system according to item (11), wherein the control of the other electric component mounting machine includes starting and stopping of the other electric component mounting machine.
(13) The information on the other electrical component mounting machines is completed on the number of circuit boards currently installed in the other electrical component mounting machines, and is completed in the middle of the work. The electrical circuit board assembly system according to item (11) or (12), which includes information on the progress of work.
(14) The network connects one of the plurality of control devices of the electrical component mounting line to the host computer and connects the plurality of control devices to each other (11) to (11). 13. The electric circuit board assembly system according to any one of items 13).

It is a top view which shows roughly the electrical component mounting machine which comprises the electrical circuit board assembly line of the electrical circuit board assembly system which is one Embodiment of the claimable invention. It is a block diagram which shows the deep part relevant to claimable invention among the control apparatuses of the said electric circuit board assembly line. It is a flowchart showing the master apparatus setting program memorize | stored in ROM of the said control apparatus. It is a figure which shows notionally the structure of RAM of the said control apparatus. It is a flowchart showing the electric circuit board assembly line control program memorize | stored in ROM of the said control apparatus.

BEST MODE FOR CARRYING OUT THE INVENTION

Hereinafter, an electric circuit board assembly system according to an embodiment of the claimable invention will be described with reference to the drawings.
The electric circuit board assembly line of the electric circuit board assembly system is configured by a plurality of electric component mounting machines 10 arranged in the conveying direction of a circuit board (in this embodiment, a printed wiring board described later). One of the plurality of electric component mounting machines 10 is representatively shown in FIG. In the electrical component mounting machine 10, each circuit board is transported in the transport direction, and the electrical components are sequentially mounted in the electrical component mounting machines 10, thereby forming a printed circuit board as an electrical circuit board. Manufactured. Although not shown in the drawing, upstream of the electrical component mounting machine 10 positioned on the most upstream side in the circuit board transport direction, is an upstream device, which is a kind of coating system, and paste solder is applied to the circuit board. A screen printing system for printing is provided, and on the downstream side of the electrical component mounting machine 10 located on the most downstream side, a reflow system (system for electrically connecting electrical components to a circuit board by melting solder) ) Is provided.

  On the base 12 of the electrical component mounting machine 10, as shown in FIG. 1, a substrate conveyor 14, two electrical component supply devices 16, 18 and electrical component transport mounting devices 20, 22 are provided. The substrate conveyor 14 includes two main conveyors 24, 26, and one carry-in conveyor 28 and one carry-out conveyor 30. Each of the main conveyors 24 and 26 includes a substrate positioning support device for positioning and supporting the printed wiring board 32, and is referred to as a conveyance direction of the printed wiring board 32 as a circuit board (hereinafter referred to as a substrate conveyance direction. The substrate conveyance direction is shown in FIG. In the horizontal direction, the substrate transport direction being the X-axis direction) and a direction perpendicular to the horizontal plane (the Y-axis direction). The carry-in conveyor 28 is provided on the upstream side of the main conveyors 24 and 26 in the substrate transfer direction, and a first shift position formed on the main conveyor 24 and a second shift formed on the main conveyor 26 by a carry-in conveyor shift device (not shown). It is shifted to the shift position. In the case of the most upstream electrical component mounting machine 10, the carry-in conveyor 28 receives the printed wiring board 32 after screen printing from the screen printing system, or in the case of other electrical component mounting machines 10, the carry-in conveyor 28 is located on the upstream side. The printed wiring board 32 with a part of the electrical components mounted thereon is received from the electrical component mounting machine 10 and carried into the main conveyor 24 or 26.

  The carry-out conveyor 30 is provided on the downstream side of the main conveyors 24 and 26 in the conveyance direction of the printed wiring board 32, and a first shift position formed on the main conveyor 24 and a main conveyor 26 by a carry-out conveyor shift device (not shown). To the second shift position. The carry-out conveyor 30 receives the printed wiring board 32 on which a part of the electrical components are mounted from the main conveyor 24 or 26 and transports the printed wiring board 32 to another electrical component mounting machine 10 located on the downstream side, or the most downstream electrical conveyor. In the case of the component mounting machine 10, a printed circuit board as an electric circuit board on which mounting of electrical components is completed is received and carried out to the reflow system.

  Each of the electrical component supply devices 16 and 18 includes a plurality of electrical component supply feeders 42 (hereinafter abbreviated as feeders 42) fixed to the feeder support base 40 in a detachable manner. The electric parts supplied by the feeder 42 are held by a carrier tape, and the parts holding tape including the electric parts and the carrier tape are fed by a tape feeder provided in the feeder 42, and the electric parts are one by one. It is sent to the parts supply unit. The plurality of feeders 42 are fixed to the feeder support base 40 in a state where the component supply units are aligned on a straight line parallel to the X-axis direction.

  Each of the electrical component carrying and mounting apparatuses 20 and 22 includes mounting heads 50 and 52, and X-axis slides 54 and 56 and Y-axis slides 58 and 60, respectively, and moves the mounting heads 50 and 52 to arbitrary positions in a horizontal plane. XY robots 62 and 64 are included. These mounting heads 50 and 52 are similarly configured, and the XY robots 62 and 64 are similarly configured. The mounting head 50 and the XY robot 62 will be described as a representative.

  The Y-axis slide 58 is provided on the base 12 so as to be movable in the Y-axis direction, and the X-axis slide 54 is provided on the Y-axis slide 58 so as to be movable in the X-axis direction. The Y-axis slide 58 is moved in the Y-axis direction by a Y-axis slide moving device including a motion conversion device that uses a servo motor as a drive source and converts the rotation of the servo motor into a linear motion and transmits the linear motion to the Y-axis slide 58. Similarly, the X-axis slide 54 is moved in the X-axis direction by an X-axis slide moving device including a motion conversion device using a servo motor as a drive source.

  The mounting head 50 has a rotating body 68 attached to the X-axis slide 54 so as to be rotatable about a vertical axis. The rotating body 68 is rotated at an arbitrary angle in both the forward and reverse directions by a rotation driving device using a servo motor as a driving source. Each of the servo motors is an electric rotary motor that is a kind of electric motor, and can control the rotation angle and the rotation speed with high accuracy. A step motor may be used instead of the servo motor.

  The rotating body 68 is provided with holders 72 that hold a plurality of electric component holders at equiangular intervals. Each of these holders 72 is fitted to the rotating body 68 so as to be movable in a direction parallel to the rotation axis of the rotating body 68 (referred to as the Z-axis direction) and to be rotatable about its own axis. When rotating, the holders 72 are turned around the rotation axis of the rotating body 68. By moving the holder 72 (holding tool) in the Z-axis direction, the electric component is taken out from the electric component supply feeder 42 or is mounted on the printed wiring board 32.

  As shown in FIG. 2, the control device 100 for controlling the electrical component mounting machine 10 configured as described above includes a PU (processing unit) 112, a ROM (read only memory) 114, a RAM (random access memory) 116, and a control. The computer 126 having a communication interface 120 and a bus 124 for connecting them. The control interface 120 includes a keyboard including a start / stop switch 128 operated by an operator, a master device setting start key 129, a character key (not shown), and the like. An operation device 130 including an operation device 130 having a display for notifying the status of work, an image pickup device for picking up the holding posture of the electric parts by the servo motors and the mounting heads 50 and 52, and a drive circuit group thereof. 136 etc. are connected. It can be considered that the control device 100 includes the drive circuit group. The ROM 114 stores a program for controlling general operations of the electrical component mounting machine 10. The RAM 116 also includes programs and data for moving the mounting heads 50 and 52 according to the type, mounting position, mounting order, etc. of the electrical components, mounting a plurality of electrical components on the printed wiring board 32, and manufacturing an electrical circuit. Etc. are stored.

  A plurality of electric component mounting machines 10 configured as described above are provided side by side in one direction (in the present embodiment, the X-axis direction which is the substrate transport direction). The control device 100 of each electrical component mounting machine 10 also includes a communication interface 140 connected by a bus 124 to the PU 112, the ROM 114, the RAM 116, and the like, and is connected to the communication device 144. Each electric component mounting machine 10 includes a control device 100, an operation device 130, and an operation device 136 independently. Each electrical component mounting machine 10 includes the communication device 144, and the communication devices 144 are connected to each other via the network 150, and can exchange information with each other. In the present embodiment, one of the plurality of electric component mounting machines 10 operates as a master device and the rest as slave devices. The communication device 144 of the electrical component mounting machine 10 is also connected to the host computer 152 via the network 150. The host computer 152 stores a production plan such as the type of printed circuit board and the production amount for each type, and a mounting program for each of various types of printed circuit boards. Information on the production plan and a mounting program are sent as necessary.

  Each of the electrical component mounting machines 10 has the same function as each other, and each has a function capable of operating as a master device and a slave device. Each ROM 114 of all the electrical component mounting machines 10 stores a program represented by the flowchart of FIG. 3 for setting which of all the electrical component mounting machines 10 is the master device. Execution is started in response to the operation of the master device setting start key 129. Each electric component mounting machine 10 is provided with a device code for convenience, and is assigned B, C, D,... In alphabetical order as the master device on the most upstream side goes to the downstream side.

  As shown in the flowchart of FIG. 3, first, in step 101 of the master device setting program (hereinafter referred to as “S101”, the same applies to other steps), it is determined whether or not a master device setting operation has been performed. The The master device setting operation means that the master device setting start key 129 is pressed once by an operator. If it is determined YES in S101, the flag is turned ON in S102. In the present embodiment, setting of the master device is started by the first pressing operation of the master device setting start key 129, and setting of the master device is confirmed by the second pressing operation. If the determination in S101 is NO, S102 is skipped and S103 is executed. In S103, it is determined whether or not the setting of the master device is completed. If the determination is YES, the flag is turned off in S104. However, since the setting of the master device is not completed for the first time, the determination is made. It becomes NO and S105 is performed. In S105, it is determined whether or not the flag is ON. If YES is determined, it is determined in S106 whether or not master designation data has been created.

  In the present embodiment, the master designation data is data in which any one of all the electric component mounting machines 10A, B, C, D,... It is. Here, for convenience, it is assumed that the electrical component mounting machine 10A located on the most upstream side in the substrate transport direction is designated as the master device. In S107, the electrical component mounting machine 10A is set as the master device in accordance with the designation data created by the operator. If the determination in S105 is NO, S106 and subsequent steps are skipped, and if the determination in S106 is NO, S107 is skipped. The above program is repeatedly executed. After setting the master device in S107, it is determined again in S103 whether the master setting is completed. If the master device setting start key 129 is pressed in this state, the determination is YES, the flag is turned off in S104, and the setting of the master device is completed. When the master device setting start key 129 is pressed by the operator while the flag is ON, the designated master device is determined. Before that, the data is changed if the master designated data is cleared. Therefore, it is possible to avoid setting mistakes due to erroneous operations. It should be noted that after the master designation data is created, the master designation data can be confirmed by the operator pressing the confirmation key.

  As shown in FIG. 4, the RAM 116 of the control device 100 is provided with an electric circuit board information memory 160, a manufacturing amount memory 162, and the like as a host information memory that stores information from the host computer 152. The electric circuit board information memory 160 is a part in which information relating to the type of printed circuit board to be manufactured is stored. The manufacturing amount memory 162 is a part in which information on how many printed circuit boards are manufactured is stored in association with the type of the printed circuit board. The RAM 116 also has a work progress information memory as a part for storing slave information, which is information transmitted from another electrical component mounting machine 10 as a slave device when the electrical component mounting machine 10 operates as a master device. 170, a product status information memory 172, a device status information memory 174, etc. are provided. In the work progress information memory 170, the information indicating whether or not the number of printed wiring boards 32 currently being installed in each slave device is in the process of being completed or not is shown in each slave device. Are associated with device numbers A, B, C, D. In the product status information memory 172, information on whether or not there is a defective electrical component held in each slave device and whether or not an electrical component is misplaced on the printed wiring board 32 is stored in each slave device. This is a portion stored in association with the device numbers A, B, C, D. The device status information memory 174 includes, in each slave device, whether or not there is a defective holding tool, and there are some of the mounted feeders that are unable to supply electrical components or that are likely to be unable to supply. This is a part for storing the status of the device such as whether or not it is associated with the device numbers A, B, C, D... Of each slave device. The work progress information memory 170, the product status information memory 172, the device status information memory 174, etc. also store the work progress status, product status, device status, etc. of the master device itself. Managed as a slave device.

  The ROM 114 of the control device 100 stores an electric circuit board assembly line control program for controlling the electric circuit board assembly line along with the master device setting program. As shown in the flowchart of FIG. 5, the electric circuit board assembly line control program includes a master program (the flow on the left side in FIG. 5) for causing one of the plurality of electric component mounting machines 10 to function as a master device. And a slave program (the flow on the right side in FIG. 5) for causing the other electrical component mounting machine 10 to function as a slave device.

  Hereinafter, based on the flowchart of the electric circuit board assembly line control program, the operation of the electrical component mounting machine 10 functioning as a master device and the operation of the electrical component mounting machine 10 functioning as a slave device will be described. As described above, any of the electrical component mounting machines 10A, B, C, D,... Can be a master device, but here, the electrical component mounting machine 10A is the master device, and the other electrical component mounting machines 10B, 10B,. Assume that C, D... Are set as slave devices, and the operation of the electrical component mounting machine 10A as the master device will be described below based on the flow on the left side of FIG. First, in step 1 of the electrical circuit board assembly line control program (hereinafter referred to as “S1”, the same applies to other steps), it is determined whether or not the electrical component mounting machine 10A is a master device. . In the present embodiment, since the electrical component mounting machine 10A is a master device, the determination is YES and S2 is executed. In S2, the operation member such as the start / stop switch 128 is operated by the operator, and it is determined whether or not any operation command is input. If the determination is YES, the input operation command is input in S3. Is transmitted from the master device to the slave device. In S4, an operation command is executed by the master device 10A itself. For example, when the operated operation member is the start / stop switch 128, a start / stop command is transmitted to the slave devices 10B, C, D,... And the master device 10A is started or stopped. If the determination in S2 is NO, S3 and S4 are skipped and S5 is executed.

  In S5, it is determined whether or not information such as work progress information (information that the start switch has been turned on this time) is transmitted from the slave device. If YES, the information is stored in the RAM 116 of the master device in S6. It is stored in the work progress information memory 170. Note that the work progress information of the master device itself is also stored in the work progress information memory 170 of the RAM 116 in the same manner as the information processing from the slave device. If the determination in S5 is NO, S7 is skipped and S7 is executed. Information on the electric circuit board to be assembled and information on the production amount thereof are transmitted from the host computer 152 to the electric component mounting machine 10A selected as the master device, and an electric circuit board information memory 160 in the RAM 116 of the electric component mounting machine 10A. In S7, it is determined whether or not the information from the host computer 152 has been transmitted to the master device. If the determination is YES, the host computer is stored in S8. The information from 152 is transmitted to each slave device via the master device. In step S9, the data is stored in the electric circuit board information memory 160 and the manufacturing amount memory 162 of the RAM 116 of the master device. If the determination in S7 is NO, S8 and S9 are skipped and the next process is executed.

  Next, the operation of the electrical component mounting machine 10 (for example, the electrical component mounting machine 10B) selected as the slave device will be described based on the flow on the right side of FIG. If it is determined in S1 that the device is not a master device, the device is a slave device. In S20, an operation command from the operator is transmitted from the master device (whether the operation member of the master device is pressed). It is determined whether or not. If the determination in S20 is YES, the same processing as that in which the operation member of each slave device itself is operated in response to the operation command in S21 is performed. For example, if the operation command is a start / stop command, the electrical component mounting machine 10B as a slave device is started or stopped. If the determination in S20 is NO, S21 is skipped.

  In S22, it is determined whether or not there is slave information to be transmitted to the master device (information indicating that the activation switch is turned on if corresponding to the above description). If YES, the slave information is transmitted to the master device in S23. Is done. If there is no slave information, S23 is skipped and S24 is executed. In S24, it is determined whether or not information such as electrical circuit board information and production amount from the host computer 152 has been transmitted via the master device. If such information is transmitted and the determination is YES, the above information is determined in S25. The information is stored in the electric circuit board information memory 160 and the manufacturing amount memory 162 of the RAM 116 of the slave device. If the determination in S24 is NO, S25 is skipped and the next process is executed.

  On the basis of the electric circuit board information and the production amount information from the host computer 152 described above, the master device and the slave device take out from the electric component supply devices 16, 18 by the mounting heads 50, 52 of the electric component transport mounting devices 20, 22. When the electrical components are sequentially mounted on the printed wiring board 32 and mounting of the electrical components in one electrical component mounting machine 10 is completed, the electrical components are sent to the next apparatus on the downstream side in the transport direction. During the work, how many printed wiring boards 32 are currently working, whether it is in the middle of the mounting work, whether it has been completed, whether there are defective electrical components or mounting defects, Status data indicating whether or not the holder is defective is transmitted from each slave device to the master device in association with the device numbers A, B, C, D... Of each slave device. The master device can control the electric circuit board assembly line including the master device and the plurality of slave devices based on the situation data.

  In S10, it is determined whether or not the above-mentioned status data is transmitted from the slave device. If the determination is YES, the transmitted status data is stored in the slave information memory (work progress information memory 170, product status information memory 172, and so on). It is stored in the device status information memory 174). Based on the status data from the slave device, it is determined in S12 whether it is necessary to send a control command from the master device to the slave device. As a case where it is necessary to send a control command from the master device, for example, there is a case where an electrical component mounting error occurs in one slave device, and the printed wiring board 32 during the mounting operation becomes a defective product. is there. In such a case, the determination in S12 is YES, and a control command is transmitted from the master device to each slave device in S13. In this case, the control command is a command for prohibiting the device downstream of the slave device in which the mounting error has occurred from performing the mounting operation on the defective printed wiring board 32, and the mounting error has occurred. This is a command to increase the number of printed wiring boards 32 to be mounted to the apparatus upstream of the slave apparatus by one. Therefore, after the occurrence of the mistake, the printed wiring board 32 in which the installation error has occurred is eliminated without performing the mounting operation. Then, by carrying the mounting work by transporting the printed wiring boards 32 increased by 1 from the number of planned printed wiring boards 32, a predetermined number of printed circuit boards are finally completed. After the execution of S13, other processes related to the electric circuit board assembly are executed in S14. If the determination in S10 is NO, S11 and subsequent steps are skipped, and if the determination in S12 is NO, S13 is skipped and S14 is executed.

  On the other hand, in the slave device, as shown in the flow on the right side of FIG. 5, in S26, it is determined whether there is status data that needs to be transmitted from the slave device to the master device. If the determination is YES, status data is transmitted from the slave device to the master device in S27. Then, in S28, it is determined whether or not a control command is transmitted from the master device. If a control command is issued from the master device and the determination is YES, the control command is executed in the slave device in S29, and the execution of the control command is transmitted to the master device in S30. After execution of S30, other processing is executed in S31. If the determination in S26 is NO, S27 and subsequent steps are skipped. If the determination in S28 is NO, S29 and S30 are skipped and S31 is executed. The master device and the slave device manufacture the printed circuit board while repeating the above steps.

  As a situation where a control command is required, there is a case where one type of electrical component cannot be supplied in one slave device, for example, in addition to the above-described example. If a single slave device is equipped with a plurality of electrical component supply feeders 42 that accommodate the same type of electrical components, the same type of electrical components are accommodated if one feeder 42 cannot supply the components. Control is performed by the control device 100 of the slave device so that the electrical components are supplied from the feeder 42, but the control command from the master device is required for the same kind of electrical components in one slave device. This is a case where there is no feeder 42 for supplying all the electrical components, or all the electrical components are supplied from a plurality of feeders 42 for supplying the same type of electrical components. The fact that one type of electric component cannot be supplied in one slave device is transmitted as status data to the master device. Based on the status data, if there is a device that can supply the same type of electrical component to another slave device, the master device supplies the slave device with the electrical component in place of the slave device that cannot be supplied. Thus, a control command can be transmitted.

  That is, the master device grasps the situation such as whether or not work is being performed in the slave device according to the production plan from the host computer 152, and if a failure occurs, the master device issues a control command for solving it. It is sent to the device and the electric circuit board assembly line is managed collectively. On the other hand, the slave device attaches electrical components to the printed wiring board 32 that has been conveyed in accordance with the command, and transmits the command execution and the work status in the slave device to the master device. The communication device 144 of each electrical component mounting machine 10 can take only information relevant to itself into the control device 100, and can shut out other unrelated information. For example, the host computer 152 is connected to the communication devices 144 of all the electrical component placement machines 10, but only the communication device 144 of the electrical component placement machine 10 that functions as a master device controls information from the host computer 152. The communication device 144 of the remaining electrical component mounting machine 10 that functions as a slave device receives the information only via the master device. All information from each slave device is transmitted to the master device, and the master device can collectively manage the status of each slave device. Therefore, the operator only has to operate the master device, and the operator's work efficiency is improved as compared to operating all of the electric component mounting machines 10, and the entire electric circuit board assembly line can be managed. It becomes easy. In addition, the master device automatically monitors and controls the slave device, and the production efficiency of the electric circuit board assembly line is improved.

  In the above, the case where the electrical component mounting machine 10A is a master device has been described, but this is an example, and any of the electrical component mounting machines 10A, B, C, D... Operates as a master device or a slave device. As shown in the figure, a master program and a slave program are provided, and the electrical component mounting machines 10B, C, D, etc. other than the electrical component mounting machine 10A are mastered according to circumstances such as production planning. It can also function as a device. For example, when the electrical component mounting machine 10A operating as the master device fails, the electrical component mounting machine 10B operating as the slave device is replaced with the failed electrical component mounting machine 10A from the electrical circuit board assembly line. Work can be continued without any problems.

  In the present embodiment, the plurality of electric component mounting machines 10 constituting the electric circuit board assembly line are each an electric circuit board assembly-related apparatus, and in the present embodiment, the plurality of electric circuit board assembly-related apparatuses are provided. It is an embodiment in which all are electrical component mounting machines. However, at least one of the screen printing system as the upstream device and the reflow system as the downstream device is connected by the network 150 together with the plurality of electrical component mounting machines 10 as one embodiment of the claimable invention. An electric circuit board assembly line can also be configured, and an electric circuit board assembly line including other electric circuit board assembly-related devices can also be configured.

  In the above embodiment, the ROM 114 of the control device 100 includes a master device setting program, a master program, and a slave program, and is read by an electric circuit board assembly line control program that can be executed by the computer 126. The recording medium is configured to be recorded, but it is also possible to record the electric circuit board assembly line control program on a removable recording medium such as a floppy disk and to provide the reading device in the control device 100. .

  The embodiment of the claimable invention has been described above, but this is merely an example, and the claimable invention includes the aspects described in the above-mentioned [Problems to be Solved, Problem Solving Means and Effects]. As described above, the present invention can be implemented in various modifications and improvements based on the knowledge of those skilled in the art.

DESCRIPTION OF SYMBOLS 10: Electrical component mounting machine 100: Control apparatus 112: PU 114: ROM 116: RAM 120: Control interface 126: Computer 130: Operation apparatus 136: Actuator 140: Communication interface 144: Communication apparatus

Claims (2)

  (a) an electric circuit board assembly line including a plurality of electric component mounting machines each including a display and a control device and performing a component mounting operation for mounting an electrical component on a circuit board; and (b) the plurality of electric circuits. An electrical circuit board assembly system including a network connecting a plurality of control devices of a component mounting machine, wherein the plurality of electrical component mounting machines mounts an electrical component assigned to each electrical component mounting machine on a circuit board In addition, in the display of any one of the plurality of electrical component mounting machines, the operator acquires information on other electrical component mounting machines that are electrical component mounting machines other than the electrical component mounting machine having the display. An electric circuit board assembly system, which is possible.   The acquired information on the other electrical component mounting machine includes work progress information indicating the progress of the mounting work in the other electrical component mounting machine, and the electric circuit board produced by the mounting work in the other electrical component mounting machine. The electrical circuit board assembly system according to claim 1, comprising at least one of product status information that is information related to status and device status information that is information related to components of the other electrical component mounting machine.

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