JP4220288B2 - Electronic component mounting method and electronic component mounting apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention picks up an electronic component from a component supply unit by a substrate recognition camera that images a mark provided on the printed circuit board provided on the mounting head and a mounting head that can move in a plane direction by a driving source. The present invention relates to an electronic component mounting method and an electronic component mounting apparatus that include a component recognition camera that images a held electronic component, and that performs recognition processing by a recognition processing device based on the imaging results of both cameras and mounts the image on a printed board.
[0002]
[Prior art]
In order to grasp the positioning position of the printed circuit board, a recognition mark is provided at a diagonal position of the circuit board, and it is common to attempt to mount an electronic component at a correct position by performing recognition processing (for example, (See JP-A-11-346098). However, since there is local expansion and contraction of pattern printing on the printed circuit board, for the mounting of fine pitch QFP parts and the like that require mounting accuracy, there is a dedicated area in the vicinity of the mounting position, apart from the whole mark. Individual board recognition marks are provided to enable pinpoint mounting correction.
[0003]
[Patent Literature]
Japanese Patent Laid-Open No. 11-346098
[0004]
[Problems to be solved by the invention]
However, in the past, focusing on the efficiency of the sequence, imaging and recognition processing of individual board recognition marks are performed collectively for all individual board recognition marks after board positioning is completed and before mounting of electronic components is started. (Batch imaging and recognition processing) However, in a gantry-type mounting device with a large driving area, the influence of thermal expansion due to heat generation of the device cannot be ignored, and individual substrate recognition immediately before each mounting is preferable. Although there is also a way of viewing, there is a problem that when a large electronic component is attracted, the electronic component itself covers the field of view of the board recognition camera and cannot be recognized.
[0005]
Therefore, the present invention determines the interference between the substrate recognition camera field of view and the suction component outer shape when performing individual substrate recognition. If it is determined that there is no interference, the electronic component is sucked out from the component supply unit. After that, the individual board recognition is executed and mounted on the printed circuit board. If it is determined that there is interference, the individual board recognition is executed, and then the electronic component is sucked out from the component supply unit and is taken on the printed circuit board. It is an object of the present invention to perform individual board recognition immediately before mounting electronic components as much as possible.
[0006]
[Means for Solving the Problems]
For this reason, the first invention provides an electronic component from a component supply unit by a substrate recognition camera that images a mark provided on the printed circuit board provided on the mounting head, and a suction nozzle of the mounting head that can be moved in a plane direction by a driving source. A component recognition camera that picks up and picks up and holds the electronic component picked up and held on the printed circuit board by the recognition processing device based on the imaging results of both cameras and mounted on the printed circuit board. When the execution timing of individual substrate recognition for recognizing a mark attached near the position where the electronic component is mounted is determined, and it is determined that the electronic component sucked by the suction nozzle covers the field of view of the substrate recognition camera In the method, after the individual substrate recognition is performed, the electronic components are sucked out from the component supply unit and mounted on the printed circuit board. That.
[0007]
According to a second aspect of the present invention, an electronic component is taken out from a component supply unit by a substrate recognition camera that images a mark provided on a printed circuit board provided on the mounting head, and a mounting head suction nozzle that is movable in a plane direction by a drive source. In the electronic component mounting method, the electronic component is mounted on the printed circuit board by performing recognition processing with a recognition processing device based on the imaging results of both cameras and mounting the printed circuit board on the printed circuit board. The execution timing of the individual substrate recognition for recognizing the mark attached in the vicinity of the position where the sensor is mounted is determined, and it is determined that the electronic component sucked by the suction nozzle does not cover the field of view of the substrate recognition camera. In this case, the electronic component is picked up and taken out from the component supply unit, and then the individual substrate recognition is executed and mounted on the printed circuit board. That.
[0008]
According to a third aspect of the present invention, an electronic component is taken out from a component supply unit by a substrate recognition camera that images a mark provided on a printed circuit board provided on the mounting head and a mounting head suction nozzle that is movable in a plane direction by a drive source. In the electronic component mounting method, the electronic component is mounted on the printed circuit board by performing recognition processing with a recognition processing device based on the imaging results of both cameras and mounting the printed circuit board on the printed circuit board. When the execution timing of the individual substrate recognition for recognizing the mark attached in the vicinity of the position where is mounted is determined, and it is determined that the electronic component sucked by the suction nozzle covers the field of view of the substrate recognition camera After executing the individual board recognition, the electronic parts can be picked up from the parts supply unit by picking up the electronic parts, mounted on the printed board, and covered. After removal by adsorption of the electronic component from the component supply unit when the Most is determined, characterized in that mounted on a printed circuit board that perform particular substrate recognition.
[0009]
According to a fourth aspect of the present invention, an electronic component is received from a component supply unit by a substrate recognition camera that images a mark provided on a printed circuit board provided on the mounting head, and a mounting head suction nozzle that is movable in a plane direction by a drive source. A component recognition camera that picks up and picks up and holds the electronic component picked up and held on the printed circuit board by the recognition processing device based on the imaging results of both cameras. A determination unit that determines an execution timing of individual substrate recognition for recognizing a mark attached in the vicinity of a position where the component is mounted, and an electronic component that is attracted to the suction nozzle by the determination unit has a field of view of the substrate recognition camera. If it is determined that the cover is to be covered, individual board recognition is performed, and then electronic components are picked up and taken out from the component supply unit. Characterized in that a control means for controlling to mount to.
[0010]
According to a fifth aspect of the present invention, an electronic component is taken out from a component supply unit by a substrate recognition camera that images a mark provided on the printed circuit board provided on the mounting head and a mounting head that can move in a plane direction by a driving source. In an electronic component mounting apparatus that includes a component recognition camera that captures an electronic component that has been sucked and held, and that performs recognition processing on a printed circuit board based on the imaging results of both cameras, the electronic component is mounted on the printed circuit board. Determining means for recognizing the execution timing of individual substrate recognition for recognizing a mark attached in the vicinity of the position where the sensor is mounted, and an electronic component sucked by the suction nozzle by the determination means covers the field of view of the substrate recognition camera If it is determined that there is no problem, the electronic components are picked up and taken out from the component supply unit, and then the individual substrate is recognized and printed Characterized in that a control means for controlling to mounted on a plate.
[0011]
According to a sixth aspect of the present invention, an electronic component is taken out from a component supply unit by a substrate recognition camera that images a mark provided on the printed circuit board provided on the mounting head and a mounting head that can move in a plane direction by a driving source. In an electronic component mounting apparatus that includes a component recognition camera that captures an electronic component that has been sucked and held, and that performs recognition processing on a printed circuit board based on the imaging results of both cameras, the electronic component is mounted on the printed circuit board. Determining means for recognizing the execution timing of individual substrate recognition for recognizing a mark attached in the vicinity of the position where the sensor is mounted, and an electronic component sucked by the suction nozzle by the determination means covers the field of view of the substrate recognition camera If it is determined that the electronic component is recognized, the electronic component is picked up from the component supply unit and picked up. Control means for controlling to mount on the printed board after performing individual board recognition after picking up and taking out the electronic component from the component supply unit when it is determined that the board is mounted and not covered And is provided.
[0012]
Further, according to a seventh aspect of the present invention, in the first to sixth aspects of the invention, the determination of the execution timing of the individual substrate is performed when the individual substrate recognition is specified in the mounting data indicating the mounting position for each mounting order of the electronic components. It is characterized by being performed.
[0013]
An eighth invention is characterized in that, in the first to sixth inventions, the mounting head is provided with a plurality of suction nozzles.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
The embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a plan view of an electronic component mounting apparatus 1. Various electronic components are placed on a base 2 of the apparatus 1. A plurality of component supply units 3 that supply one by one to the component adsorption position) are arranged side by side. A supply conveyor 4, a positioning unit 5, and a discharge conveyor 6 are provided between the groups of opposing units 3. The supply conveyor 4 conveys the printed circuit board P received from the upstream to the positioning unit 5, and after the electronic components are mounted on the substrate P positioned by a positioning mechanism (not shown) by the positioning unit 5, the conveyance is conveyed to the discharge conveyor 6. Is done.
[0015]
8A and 8B are a pair of beams that are long in the X direction, each of which rotates a screw shaft 10 by driving a Y-axis motor 9, and along the pair of left and right guides 11, a component take-out portion ( The component suction position) is individually moved in the Y direction.
[0016]
Each of the beams 8A and 8B is provided with mounting heads 7A and 7B that move along the guide (not shown) by the X-axis motor 12 in the longitudinal direction, that is, the X direction. Each mounting head 7A or 7B is equipped with two vertical axis motors 14 for vertically moving the two suction nozzles 17A, 17B or 17C, 17D, and a θ-axis motor 15 for rotating around the vertical axis. Two are installed. Accordingly, the suction nozzles of the two mounting heads 7A and 7B can move in the X direction and the Y direction, can rotate around the vertical line, and can move up and down.
[0017]
Reference numeral 16 denotes a component recognition camera for component position recognition, which is provided with four corresponding to each of the suction nozzles 17A, 17B, 17C, and 17D. The electronic component is imaged for recognizing the position in the XY direction and the rotation angle, but two electronic components can be simultaneously imaged. Nos. 18 and 18 are nozzle stockers for storing various suction nozzles, and a maximum of 10 can be stored, but 9 are stored.
[0018]
Reference numerals 19 and 19 denote board recognition cameras, which are provided on the mounting heads 7A and 7B, respectively, and pick up images of the marks in order to recognize the positions of the recognition marks attached to the printed board P.
[0019]
FIG. 2 is a control block diagram of the electronic component mounting apparatus 1. For convenience, the X-axis motor 12, the Y-axis motor 9, the θ-axis motor 15 and the vertical axis motor 14, the component recognition camera 16, the board recognition camera 19, etc. Only one is illustrated and described below.
[0020]
A CPU 21 serving as a control unit that performs overall control of operations related to electronic component mounting of the mounting apparatus 1, a RAM (random access memory) 22 as a storage device, a ROM (read only memory) 23, and the like. ing. As shown in FIG. 3, the RAM 22 stores information on the X direction, Y direction and angular position in the printed circuit board P and FDR numbers (each component supply unit) for each electronic component mounting order (indicated by P-NO). 3, information “S” information for designating “pairing”, designation data “V” information for the presence / absence of individual substrate recognition for each placement point, and the like are stored. The RAM 22 stores component library data (data such as sizes in the X direction and Y direction) for each component type as shown in FIG. 5, and also the positions of the suction nozzle and the substrate recognition camera. Stored.
[0021]
That is, in the data “S” information for designating “pairing”, when “S” is designated as “2”, the left and right suction nozzles 17A, 17B or 17C, 17D individually suck the electronic components to 2 Steps are processed together (adsorption priority designation), the step input as “2” in “S” and the next step are “paired (processed as a set)”, and “S” is “1”. If the pitch between the left and right suction nozzles 17A, 17B or 17C, 17D and the pitch of the component supply unit 3 arrangement are the same, processing is performed for two steps, and the suction operation is performed by the left and right suction nozzles 17A, 17B or 17C and 17D are performed at the same time (simultaneous suction designation), and “Pairing” processing is performed on the step where “1” is input to “S” and the next step.
[0022]
Then, the processing of the two beams 8A and 8B is automatically distributed by determining the hundreds of the FDR number. That is, the A beam 8A processes the 100th series, and the B beam 8B processes the 200th series.
[0023]
Further, the “V” information that is the designation data for individual substrate recognition for each mounting point will be described. When “V” is designated as “00”, there is no individual substrate recognition, and “01” is designated as “01”. The individual board recognition of the point is performed, and when “02” is designated, the processing is performed so as to perform the two-point individual board recognition, and the XYθ position correction is performed on the mounting point based on the obtained recognition processing result. . This individual substrate recognition absorbs the local expansion and contraction of the substrate pattern printing and is effective for the self-cleaning action of the XY beam system accuracy.
[0024]
In addition to the mounting data indicating the mounting coordinates and the like, the recognition shown in FIG. 4 is performed in response to “V” information, which is designation data for individual substrate recognition for each mounting point at each mounting step (indicated by P-NO). Coordinate data is prepared. “V-NO” is the same as the mounting step “P-NO” (generated in a pair with the mounting step), “V” is the same as the “V” data of the mounting data, and “X1 (mm)” "Is the X coordinate of the first point of the mounting individual board recognition mark (applied in the vicinity of the position where the electronic component is to be mounted on the printed board P), and" Y1 (mm) "is the mounting individual board recognition mark. Y coordinate of the first point, “F1” is the mark code data of the first point of mounting individual board recognition, “X2 (mm)” is the X coordinate of the second point of the mounting individual board recognition mark, [X], “Y2” “(Mm)” is the Y coordinate of the second point of the mounted individual substrate recognition mark, and “F2” is the mark code data of the second point of mounted individual substrate recognition.
[0025]
The mark code data at the second point of recognition of the individual boards recognized with “F1” and “F2” indicate the specifications of the target recognition mark. “Mark shape”, “Mark size”, “Recognition area”, “Light / darkness” "Polarity (brightness / darkness of mark image at the time of image capture)". If the mark code data is “01”, for example, the mark shape is circular and the outer shape of the mark is 2 mm or the like.
[0026]
Here, the mounting area is any mounting so that only one mounting head can be mounted so that the mounting heads 7A and 7B do not batting (collision) when electronic components are mounted on the printed circuit board P. It can only be acquired by the head.
[0027]
Then, the CPU 21 controls the operation related to the component mounting operation of the electronic component mounting apparatus 1 according to the program stored in the ROM 23 based on the data stored in the RAM 22. That is, the CPU 21 drives the X-axis motor 12 via the drive circuit 25, drives the Y-axis motor 9 via the drive circuit 28, and drives the θ-axis motor 15 via the drive circuit 32. Further, the driving of the vertical axis motor 14 is controlled via a drive circuit 30.
[0028]
Reference numeral 33 denotes a component recognition processing unit connected to the CPU 21 via the interface 24. An image captured by the component recognition camera 16 is recognized by the recognition processing unit 33 and processed by the CPU 21. The result is sent out. That is, the CPU 21 outputs an instruction to the component recognition processing unit 33 so as to perform recognition processing (calculation of positional deviation amount, etc.) on the image captured by the component recognition camera 16 and receives the recognition processing result from the recognition processing unit 33. Is.
[0029]
That is, when the amount of positional deviation is grasped by the recognition processing of the component recognition processing unit 33, the result is sent to the CPU 21, and the CPU 21 drives the mounting head 7A in the Y direction by driving the Y-axis motor 9 with the beam 8A or 8B. Alternatively, 7B is moved in the X direction by driving the X-axis motor 12, and is rotated by θ by the θ-axis motor 15, so that the rotational angular position about the X, Y direction and the vertical axis is corrected.
[0030]
A substrate recognition processing unit 13 recognizes an image captured and captured by the substrate recognition camera 19 at the substrate recognition processing unit 13 and sends the processing result to the CPU 21. That is, the CPU 21 outputs an instruction to the substrate recognition processing unit 13 to perform recognition processing (such as calculation of a positional deviation amount) on the image captured by the substrate recognition camera 19, and the recognition processing result is output from the substrate recognition processing unit 13. It is what you receive.
[0031]
That is, when the amount of displacement is grasped by the recognition processing of the substrate recognition processing unit 13, the result is sent to the CPU 21. The CPU 21 drives the mounting head 7A in the Y direction by driving the beam 8A or 8B by the Y-axis motor 9. Alternatively, 7B is moved in the X direction by driving the X axis motor 12, and is rotated by θ by the θ axis motor 15, so that the rotational angular position about the X, Y direction and the vertical axis can be corrected.
[0032]
The above-described substrate recognition processing operation is performed only before the first electronic component mounting by each beam. This is because not only the characteristics of the printed circuit board P but also the characteristics of each beam, each mounting head, etc. are reflected in the position correction for component mounting.
[0033]
Reference numeral 34 denotes a keyboard as input means connected to the CPU 21 via the keyboard driver 35 and the interface 24. Reference numeral 36 denotes a monitor for displaying an image such as a recognition component image. Note that an input unit such as a touch panel may be used instead of the keyboard 34 as the input unit.
[0034]
With the above configuration, the operation will be described below with reference to FIGS. 6 and 7 in particular. First, the printed circuit board P is conveyed from the upstream device to the positioning unit 5 via the supply conveyor 4 by a conveyor (not shown), and is positioned and fixed by the positioning mechanism.
[0035]
Then, the data of the first step “P-NO” (hereinafter referred to as “mounting step number”) 0001 in the mounting data is cut out. However, since “2” is included in the “S” information, two steps are collectively processed (sucking). Priority). That is, according to the mounting data in which the XY coordinate position to be mounted on the printed circuit board P stored in the RAM 22, the rotation angle position around the vertical axis, the FDR number (arrangement number of each component supply unit 3), and the like are specified. The electronic components to be mounted by the suction nozzles corresponding to the component types of the electronic components having the numbers 0001 and 0002 are picked up and taken out from the predetermined component supply unit 3.
[0036]
In this case, first, when the suction nozzles 17A and 17B equipped on the mounting head 7A are aligned with the designated suction nozzles of the electronic components, the suction nozzles are exchanged. That is, each mounting head 7A moves so as to be positioned above a predetermined suction nozzle of the nozzle stocker 18. However, in the Y direction, the Y-axis motors 9 and 9 are driven by the driving circuit 28 along the pair of guides 11 and the beam 8A. In the X direction, the X-axis motor 12 is driven by the drive circuit 25 and the mounting head 7A is moved to perform the nozzle replacement operation.
[0037]
Next, the CPU 21 determines whether or not each of the mounting step numbers 0001 and 0002 is recognized. Since the “V” information is “00”, there is no designation, so the CPU 21 performs the following without performing the individual substrate recognition process. To be controlled. That is, first, the suction nozzle 17A of the mounting head 7A moves so as to be positioned above the component supply unit 3 that stores the electronic component to be mounted of the mounting step number 0001, but the Y-axis motor 9 is driven by the drive circuit 28 in the Y direction. When driven, the beam 8A moves along the pair of guides 11, and in the X direction, the X-axis motor 12 is driven by the drive circuit 25 to move the mounting head 7A, and the predetermined supply unit 3 is already driven to pick up the components. Since the parts can be taken out at the position, the vertical axis motor 14 is driven by the drive circuit 30 and the nozzle 17A descends to pick up and pick up the electronic parts. The suction nozzle 17B should be mounted with step number 0002. The electronic component is moved so as to be positioned above the component supply unit 3 that accommodates the electronic component, and the electronic component is sucked and taken out.
[0038]
Further, the suction nozzles 17A and 17B are moved above the component recognition camera 16 to pick up images of each electronic component held by suction, and the recognition processing is performed by the component recognition processing unit 33. Based on the result, the beam 8A and the mounting head are again formed. 7A is moved, and the suction nozzles 17A and 17B each mount the electronic component on the printed circuit board P while correcting the misalignment in consideration of the component recognition result.
[0039]
Next, the preceding execution flag of the RAM 22 is turned off, the data of the next mounting step number 0003 is cut out, and since there is an unmounted step, the CPU 21 determines the individual board recognition execution timing. This determination is made by checking the interference between the board recognition camera field of view and the suction component outer shape, that is, referring to the component library data (see FIG. 5) of the suction target component when the individual substrate recognition is designated. , Y), it is determined that the center of the suction nozzle and the component area (the maximum area occupied by the rotation of the suction nozzle and the electronic component) will not block the visual field of the substrate recognition camera 19 and will not interfere. Then, the preceding execution flag is turned off, and if it is determined that interference occurs, the preceding execution of individual substrate recognition of the next step number (preceding recognition before electronic component suction) is determined and the preceding execution flag is turned on.
[0040]
The above determination is performed to determine whether or not the electronic components sucked and held by the suction nozzles 17A and 17B block the field of view of the substrate recognition camera 19. In the determination, the suction nozzles 17A and 17A stored in the RAM 22 are determined. The position of 17B and the board | substrate recognition camera 19 etc. are also considered.
[0041]
XY type gantry multi-function mounters are required to have a higher speed device, the mounting head mounted on the beam is required to be lighter and smaller, and the range of defense of the target parts handled by the device is greatly expanded. Since there is a wide range from minute electronic parts to large electronic parts (connectors, etc.), if the position of the board recognition camera mounted on the mounting head is separated from the suction nozzle, the mounting head will be enlarged and high-speed mobility will be impaired. As described above, it is necessary to determine the interference between the field of view of the substrate recognition camera and the outer shape of the suction component.
[0042]
However, since the “V” information is “00” and there is no designation of individual substrate recognition, the preceding execution flag is off without performing the individual substrate recognition process, and thus the CPU 21 controls as follows. That is, when it is necessary to match the suction nozzles 17A and 17B installed in the mounting head 7A with the designated suction nozzle of the electronic component, the suction nozzle is replaced, and the mounting head 7A is then lifted as described above. At the same time, the suction nozzles 17A and 17B respectively move above the component supply unit 3 that stores the electronic components to be mounted of the mounting step numbers 0003 and 0004. Similarly, the nozzles 17A and 17B descend to suck and take out the electronic components. Further, the suction nozzles 17A and 17B are moved above the component recognition camera 16, and the electronic component held by suction is picked up and recognized by the component recognition processing unit 33. Based on the result, the beam 8A and the mounting head 7A are again displayed. The suction nozzles 17A and 17B mount the electronic component on the printed circuit board P while correcting the positional deviation in consideration of the component recognition result.
[0043]
Next, the preceding execution flag in the RAM 22 is turned off, the data of the next mounting step number 0005 is cut out, and there is an unmounted step, so the CPU 21 determines the individual board recognition execution timing.
[0044]
In other words, when “V” information is “02”, there is a designation for performing two-point individual board recognition, and the interference between the board recognition camera field of view and the suction part outline is checked. For example, the preceding execution flag is turned off, and the CPU 21 controls as follows. That is, as described above, the suction nozzle is replaced when necessary, and “S” is designated as “1”, and the pairing process, that is, the suction operation of the left and right suction nozzles 17A and 17B is simultaneously performed. (Simultaneous suction designation), the suction nozzles 17A and 17B are moved above the component supply unit 3 for storing the electronic components to be mounted of the mounting step numbers 0005 and 0006, respectively, and the nozzles 17A and 17B are similarly lowered to be electronic. The part is picked up and taken out, the electronic part picked up and held by the part recognition camera 16 is picked up, recognized by the part recognition processing unit 33, and the “V” information is “02”. Processed to perform individual substrate recognition of points. That is, based on the recognition coordinate data shown in FIG. 4, the CPU 21 attaches an individual board recognition mark (not shown) attached to the board recognition camera 19 in the vicinity of the position on the printed board P of the electronic component having the mounting step number 0005. Then, the substrate recognition processing unit 33 performs recognition processing. Based on the recognition results, the beam 8A and the mounting head 7A are moved again, and the suction nozzles 17A and 17B add the individual substrate recognition results to the component recognition results. The electronic component is mounted on the printed circuit board P while correcting the displacement.
[0045]
Also, if it is determined by the above determination that both of the parts to be picked up are both large or one of them is large and the board recognition camera field of view cannot be secured and there is interference, and the part picking up cannot be preceded, the individual of the next step number Prior execution of board recognition is determined and the previous execution flag is turned on. Accordingly, two individual board recognition is performed to perform prior recognition before the electronic component is picked up, that is, the board recognition camera 19 is located in the vicinity of the position where the electronic components of the mounting step numbers 0005 and 0006 are to be mounted on the printed circuit board P. Each of the two individual substrate recognition marks (not shown) attached is imaged and recognized by the substrate recognition processing unit 33. Then, if necessary, the suction nozzles are replaced. As described above, “S” is designated as “1”, and the pairing process, that is, the suction operations of the left and right suction nozzles 17A and 17B are performed simultaneously. (Simultaneous suction designation), the suction nozzles 17A and 17B are moved above the component supply unit 3 for storing the electronic components to be mounted of the mounting step numbers 0005 and 0006, respectively, and the nozzles 17A and 17B are similarly lowered to electronic components. Adsorb and take out. Further, the suction nozzles 17A and 17B move above the component recognition camera 16 to pick up an image of the sucked and held electronic component, and a recognition process is performed by the component recognition processing unit 33. Based on the result, the beam 8A and the mounting head 7A again. The suction nozzles 17A and 17B mount the electronic component on the printed circuit board P while correcting the misalignment by adding the component recognition result to the substrate recognition result.
[0046]
Next, the preceding execution flag of the RAM 22 is turned off, the data of the next mounting step number 0007 is cut out, and since there is an unmounted step, the CPU 21 performs determination of the individual board recognition execution timing, and based on this determination, the mounting step The electronic component is mounted on the printed circuit board in the same manner as the number 0005.
[0047]
Further, the processing after step number 0009 is similarly performed as described above. As described above, the beams 8A and 8B are sequentially mounted with their own mounting designation parts. In that case, each beam determines the step number to be processed by itself and performs an operation. At this time, each of the beams checks whether or not the individual board recognition designation of the step number to be picked up next is completed when the component mounting is completed. If the presence of interference between the external shape of the component and the visual field of the board recognition camera 19 is checked from the original data (component library data) and it is determined that interference will occur, the mounting operation is completed before the component suction operation. Thereafter, the individual substrate recognition of the next step number is performed in advance without any component adsorption without leaving a mounting area.
[0048]
Therefore, the board recognition timing close to that immediately before the mounting is realized, and it is possible to follow an unexpected board shift caused by a disturbance and to establish an appropriate sequence.
[0049]
In addition, the individual board recognition mark (attached in the vicinity of the position where the electronic component is to be mounted on the printed board P) is imaged by the board recognition cameras 19 and 19, and the board recognition processing unit 13 performs the recognition process. The electronic component is mounted while correcting the displacement by adding the component recognition result to the substrate recognition result, but the individual substrate recognition mark recognition process is not performed (the individual substrate recognition mark is not attached). In the case of mounting on an electronic component), for example, an overall recognition mark on a diagonal line of a printed circuit board is recognized, and the position recognition is corrected by adding the component recognition result to the board recognition result. An electronic component is mounted on the printed circuit board P.
[0050]
Although the embodiments of the present invention have been described above, various alternatives, modifications, and variations can be made by those skilled in the art based on the above description, and the present invention is not limited to the various embodiments described above without departing from the spirit of the present invention. It encompasses alternatives, modifications or variations.
[0051]
【The invention's effect】
As described above, according to the present invention, individual substrate recognition immediately before each mounting is preferable, but it is possible to determine and cover whether or not the electronic component sucked and held by each suction nozzle blocks the visual field of the substrate recognition camera. If it is determined that the electronic component is picked up and taken out from the component supply unit, individual substrate recognition is executed and the electronic component is mounted on the printed circuit board. Since the individual substrate recognition is performed before the suction, it is possible to recognize the individual substrate immediately before mounting the electronic component as much as possible, and even the large electronic component can be reliably imaged and recognized by the substrate recognition camera. .
[Brief description of the drawings]
FIG. 1 is a plan view of an electronic component mounting apparatus.
FIG. 2 is a control block diagram of the electronic component mounting apparatus.
FIG. 3 is a diagram showing mounting data.
FIG. 4 is a diagram showing recognition coordinate data.
FIG. 5 is a diagram showing component library data.
FIG. 6 is a schematic flowchart.
FIG. 7 is a diagram showing an individual substrate recognition execution timing determination routine.
[Explanation of symbols]
1 Electronic component mounting device
3 parts supply unit
7A, B Mounting head
8A, B beam
16 Parts recognition camera
19 Board recognition camera
17A, B, C, D Suction nozzle
21 CPU
22 RAM

Claims (8)

An electronic component that is picked up and held by picking up an electronic component from the component supply unit by a board recognition camera that images the mark attached to the printed circuit board provided on the mounting head, and a mounting head suction nozzle that can be moved in the plane direction by a drive source In an electronic component mounting method that includes a component recognition camera that captures the image, and performs recognition processing by a recognition processing device based on the imaging results of both cameras and mounts on a printed circuit board.
Determining the execution timing of individual substrate recognition for recognizing a mark attached in the vicinity of a position where an electronic component is mounted on the printed circuit board;
When it is determined that the electronic component sucked by the suction nozzle covers the field of view of the substrate recognition camera, after performing individual substrate recognition, the electronic component is sucked and taken out from the component supply unit onto the printed circuit board. An electronic component mounting method comprising mounting the electronic component. An electronic component that is picked up and held by picking up an electronic component from the component supply unit by a board recognition camera that images the mark attached to the printed circuit board provided on the mounting head, and a mounting head suction nozzle that can be moved in the plane direction by a drive source In an electronic component mounting method that includes a component recognition camera that captures the image, and performs recognition processing by a recognition processing device based on the imaging results of both cameras and mounts on a printed circuit board.
Determining the execution timing of individual substrate recognition for recognizing a mark attached in the vicinity of a position where an electronic component is mounted on the printed circuit board;
If it is determined that the electronic component attracted by the suction nozzle does not cover the field of view of the substrate recognition camera, the electronic component is attracted and taken out from the component supply unit, and then the individual substrate recognition is executed and printed. An electronic component mounting method comprising mounting on a substrate. An electronic component that is picked up and held by picking up an electronic component from the component supply unit by a board recognition camera that images the mark attached to the printed circuit board provided on the mounting head, and a mounting head suction nozzle that can be moved in the plane direction by a drive source In an electronic component mounting method that includes a component recognition camera that captures the image, and performs recognition processing by a recognition processing device based on the imaging results of both cameras and mounts on a printed circuit board.
Determining the execution timing of individual substrate recognition for recognizing a mark attached in the vicinity of a position where an electronic component is mounted on the printed circuit board;
When it is determined that the electronic component sucked by the suction nozzle covers the field of view of the substrate recognition camera, after performing individual substrate recognition, the electronic component is picked up from the component supply unit and printed. When the electronic component is mounted on the substrate and it is determined that the electronic component is not covered, the electronic component is picked up and taken out from the component supply unit, and then the individual substrate is recognized and mounted on the printed circuit board. Component mounting method. An electronic component that is picked up and held by picking up an electronic component from the component supply unit by a board recognition camera that images the mark attached to the printed circuit board provided on the mounting head, and a mounting head suction nozzle that can be moved in the plane direction by a drive source In an electronic component mounting apparatus that is mounted on a printed circuit board by performing recognition processing with a recognition processing device based on the imaging results of both cameras,
A determination means for determining an execution timing of individual substrate recognition for recognizing a mark attached in the vicinity of a position where an electronic component is mounted on the printed circuit board;
When it is determined by the determination means that the electronic component sucked by the suction nozzle covers the field of view of the substrate recognition camera, after the individual substrate recognition is performed, the electronic component is sucked and taken out from the component supply unit. An electronic component mounting apparatus comprising: control means for controlling to mount on a printed circuit board. An electronic component that is picked up and held by picking up an electronic component from the component supply unit by a board recognition camera that images the mark attached to the printed circuit board provided on the mounting head, and a mounting head suction nozzle that can be moved in the plane direction by a drive source In an electronic component mounting apparatus that is mounted on a printed circuit board by performing recognition processing with a recognition processing device based on the imaging results of both cameras,
A determination means for determining an execution timing of individual substrate recognition for recognizing a mark attached in the vicinity of a position where an electronic component is mounted on the printed circuit board;
When it is determined by the determination means that the electronic component sucked by the suction nozzle does not cover the field of view of the substrate recognition camera, the electronic component is sucked and taken out from the component supply unit, and then the individual substrate recognition is performed. And an electronic component mounting apparatus characterized by comprising control means for performing control so as to be mounted on a printed circuit board. An electronic component that is picked up and held by picking up an electronic component from the component supply unit by a board recognition camera that images the mark attached to the printed circuit board provided on the mounting head, and a mounting head suction nozzle that can be moved in the plane direction by a drive source In an electronic component mounting apparatus that is mounted on a printed circuit board by performing recognition processing with a recognition processing device based on the imaging results of both cameras,
A determination means for determining an execution timing of individual substrate recognition for recognizing a mark attached in the vicinity of a position where an electronic component is mounted on the printed circuit board;
When it is determined by the determination means that the electronic component sucked by the suction nozzle covers the field of view of the substrate recognition camera, after the individual substrate recognition is performed, the electronic component is sucked from the component supply unit. If it is determined that the electronic component is not covered, the electronic component is picked up and taken out from the component supply unit, and then the individual substrate is recognized and mounted on the printed circuit board. An electronic component mounting apparatus comprising a control means for controlling. 7. The determination of the execution timing of the individual substrate recognition is performed when individual substrate recognition is specified in mounting data indicating a mounting position or the like for each mounting order of electronic components. The electronic component mounting method or electronic component mounting apparatus according to any one of the above. 7. The electronic component mounting method or the electronic component mounting device according to claim 1, wherein the mounting head is provided with a plurality of suction nozzles.

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