JP2020098904A - Electrical characteristic acquisition method and component mounting method - Google Patents

Abstract

To improve measurement accuracy of electric characteristics of a component in an inspection device.SOLUTION: An inspection device includes a holding base 32, and a pair of measuring elements 34,36 which grasps a component s retained in the holding base 32 and can measure electrical characteristics thereof, but the holding base 32 has conductivity, and the electrical characteristics are measured in a state where the component s is separated from the holding base 32. Influence of the holding base 32 having conductivity on the component s can be reduced and the electrical characteristics can be measured with good accuracy.SELECTED DRAWING: Figure 9

Description

The present invention relates to an inspection device that inspects a component mounted on a circuit board.

Patent Documents 2 and 3 describe an inspection device that includes a probe and that measures the electrical characteristics of a component by contacting the probe. Patent Document 1 describes an inspection device that measures electrical characteristics by sandwiching a component placed on a holding table from both ends. In this inspection apparatus, air is supplied from the blower opening 28 along the V groove of the holding table, and the measured parts on the V groove are sent to the inlet 7'. Then, the defective product is discarded and the non-defective product is used for mounting on the circuit board.

Japanese Patent Publication No. 52-30703 Japanese Utility Model Publication No. 1-76100 International Publication 2014/155657 Pamphlet

An object of the present invention is to improve the measurement accuracy of electrical characteristics in an inspection device that can automatically measure the electrical characteristics of components.

Means, actions and effects for solving the problems

An inspection apparatus according to the present invention includes a conductive holding base and a pair of stylus capable of gripping a component held by the holding base and measuring electrical characteristics in a state of being separated from the holding base. ..
Since the holding table has conductivity, by placing the parts on the holding table, it is possible to satisfactorily remove the charge from the parts. Thereby, the electrical characteristics of the component can be accurately measured.

It is a perspective view of a mounting machine including an inspection device which is one embodiment of the present invention. It is a perspective view of the principal part of the said inspection apparatus. It is sectional drawing of the principal part of the said inspection apparatus. It is a partial top view of the said inspection apparatus. It is an air circuit diagram contained in the above-mentioned inspection device. It is a figure which shows notionally the control apparatus of the said mounting machine. (a) A flow chart showing an LCR measurement program stored in a storage unit of the control device. (b) It is a time chart when LCR is measured in the above-mentioned inspection device. 5 is a flowchart showing a component suitability determination program stored in a storage unit of the control device. It is a figure which shows operation|movement of the said inspection apparatus. (a) is a diagram showing an initial state, (b) is a diagram showing a clamped state, (c) is a diagram showing a measurement state, and (d) is a diagram showing a discarding state. FIG. 3 is a perspective view of the inspection device viewed from an angle different from that in FIG. 2.

Embodiment of the invention

Hereinafter, a mounting machine including an inspection device according to an embodiment of the present invention will be described in detail with reference to the drawings.
The mounting machine shown in FIG. 1 mounts a component on a circuit board, and includes an apparatus main body 2, a circuit board carrying/holding device 4, a component supply device 6, a head moving device 8 and the like.
The circuit board transfer/holding device 4 transfers and holds a circuit board P (hereinafter, abbreviated as a board P) in a horizontal posture, and in FIG. The width direction is the y direction, and the thickness direction of the substrate P is the z direction. The y direction and the z direction are the front-back direction and the vertical direction of the mounting machine, respectively. These x direction, y direction, and z direction are orthogonal to each other. The component supply device 6 supplies an electronic component (hereinafter abbreviated as a component) s mounted on the substrate P, and includes a plurality of tape feeders 14 and the like. The head moving device 8 holds the mounting head 16 and moves it in the x, y, and z directions, and the mounting head 16 has a suction nozzle 18 that suctions and holds the component s.

Reference numeral 20 indicates a camera. The camera 20 images the component s held by the suction nozzle 18, and based on the image captured by the camera 20, whether the component s is to be mounted on the circuit board P or not. To be judged. Reference numeral 22 indicates an inspection device. The inspection device 22 measures and inspects the electrical characteristics of the component s. The electrical characteristics of the part s are measured, and whether the measured electrical characteristics match the information (electrical characteristics) regarding the part s included in the JOB information, that is, the part to be used for the next work It is determined whether or not it matches the electrical characteristics of s.
The electrical characteristics of the component s include L (inductance), C (capacitance), R (resistance), Z′ (impedance), and the inspection device 22 measures one or more of these.

The inspection device 22 is provided in the main body of the circuit board transport holding device 4 via the trash box 26. The trash box 26 and the inspection device 22 are connected by a waste passage 28, and the component s whose electrical characteristics have been measured is accommodated in the trash box 26 via the waste passage 28. The inspection device 22 is provided in the dustbin 26 so that its height can be adjusted. As shown in FIGS. 2 and 10, a base portion 30 is engaged with the trash box 26 so as to be able to move up and down, and a main body 29 of the base portion 30 includes a fastening portion 31 including bolts and nuts (see FIGS. 3, 4 and 10). The base portion 30 and the main body 29 are integrally held so as to be vertically movable. Further, the main body 29 and the base portion 30 are provided with openings 29a and 30a, respectively, which can communicate with the waste passage 28 (see FIGS. 3 and 4).
As shown in FIGS. 2 to 4, the inspection device 22 includes (i) the main body 29 and the base portion 30.
, (Ii) a holder 32 capable of holding the component s, (iii) a pair of measuring elements 37 including a stator 34 and a mover 36, (iv) a holder moving device 40 for moving the holder 32, (v) It includes a mover moving device 41 for moving the mover 36 toward and away from the stator 34, and (vi) an LCR detection section 42 as an electrical characteristic detection section. In the present embodiment, the component s can have electrodes at both ends and can be gripped by the pair of measuring elements 37. The component s corresponds to, for example, what is called a square chip.

The holding table 32 includes a component mounting portion 44 and a mounting portion holder 46 that holds the component mounting portion 44. A V groove 44c is formed on the upper surface of the component placement portion 44, and the component s is placed on it. Since it is V-shaped, the position of the component s is accurately determined.
The component mounting portion 44 can be made of a material that is electrically conductive and wear resistant, and that is difficult to oxidize. The component mounting portion 44 is electrically connected to the base portion 30 via a plurality of members having conductivity, but the component mounting portion 44 is also grounded by grounding the base portion 30. In this embodiment, the component mounting portion 44 contacts the mounting portion holding body 46 and is fixed by the fastening portion 47, and the mounting portion holding body 46 is attached to the main body 29 by the stopper 80 (see FIG. 3). And the main body 29 is fixed to the base portion 30 by the fastening portion 31. The mounting portion holder 46, the stopper 80, the main body 29, the base portion 30, the fastening portions 31, 47, etc. are electrically conductive. Therefore, the component mounting portion 44 is grounded.
As described above, since the component mounting portion 44 is made of a conductive material and is grounded, the component s mounted on the component mounting portion 44 can be discharged. In addition, since the component mounting portion 44 is made of a material having wear resistance, it is possible to suppress wear of the component mounting portion 44 and improve durability. Furthermore, the component mounting portion 44 can be made difficult to rust by being made of a material that is hard to oxidize, that is, a material that can form a passivation film that is a metal oxide film. It is possible to make it difficult for rust to attach to the component s, and it is possible to suppress a decrease in measurement accuracy of the electrical characteristics of the component s. For example, the component mounting portion 44 may be manufactured from an aluminum alloy, a stainless material, or the like.

The stator 34 and the mover 36 respectively have facing surfaces 34f and 36f facing each other, and the pair of facing surfaces 34f and 36f hold the component s. The stator 34 is fixed to the main body 29 via a stator holder 55. The mover 36 is held by the mover holder 56 so as to be movable integrally therewith, and can be moved toward and away from the stator 34. In the present embodiment, the facing surface 36f has a triangular cross section and is movable along the V groove 44c. In other words, the facing surface 36f of the mover 36 has a shape substantially corresponding to the V groove 44c, and the facing surface 36f of the mover 36, the facing surface 34f of the stator 34, and the V groove 44c of the holding table 32 are , Located at almost the same height. Therefore, regardless of which part s is in the V groove 44c, the part s can be held by the pair of facing surfaces 34f and 36f.
In the present embodiment, the mover 36 is a longitudinal member extending in the y direction (moving direction) and is held by the mover holder 56 at the retracted end. Further, the rear portion including the facing surface 36f has a shape having no portion protruding in the x direction from the front end portion. As a result, the holding table 32 and the mover 36 can be moved relative to each other, and the holding table 32 moves to the front of the facing surface 36f with the bottom of the V groove 44 positioned below the mover 36. It is possible to move backward.
Further, an electric circuit 58 including a pair of measuring elements 37 composed of the mover 36 and the stator 34, the LCR detecting section 42, a power supply device (not shown) and the like is formed. A current is supplied between the stator 34 and the mover 36, and the flowing current is detected, and the electrical characteristics of the component s are measured by the LCR detection unit 42 based on the relationship between them. The LCR detection unit 42 uses L, C, R
Not limited to the detection unit for detecting, it is possible to detect one or more of physical quantities representing electrical characteristics such as L, C, R, and Z′. 2 to 4, reference numerals 58a and 58b are connecting portions of the pair of measuring elements 37 to the electric circuit 58.

The cover unit 50 is attached to the holding table 32. The cover portion 50 includes a pair of cover plate portions 52 and 54 which are provided on both sides of the V groove 44c and are separated from each other in the x direction. The cover plate portions 52 and 54 are provided on the stator 34 side of the holding table 32 and extend in the y direction and the z direction, that is, the moving direction of the holding table 32 and the mover 36 and the vertical direction. , The plate-like member has a bent shape. The cover plate portion 52 has a groove shape in a plan view, and includes a bottom plate portion 52a and side plate portions 52b and 52c provided on both sides of the bottom plate portion 52a so as to be separated from each other in the x direction. The bottom plate portion 52a has a bent lower portion, has an L shape in a side view, and is attached to the side surface of the component mounting portion 44 on the side of the stator 34 at the upper portion. Further, at the forward end position of the holding table 32, the lower portion of the bottom plate portion 52 is located above the stator holding body 55, and the side plate portion 52b is located outside the stator 34 and above the stator holding body 55. The side plate portion 52c is located outside the side plate portion 52b and outside the stator holder 55. The side plate portion 52c has a larger vertical dimension than the side plate portion 52b, and the lower end portion thereof extends to the vicinity of the opening 29a of the main body 29. The cover plate portion 54 is attached to the mounting portion holder 46 on the side opposite to the cover plate portion 52 with respect to the V groove 44c. The cover plate portion 54 is located outside the stator holding body 55 at the forward end position of the holding table 32. The cover plate portion 54 has a shape bent in the vertical direction, and the lower end portion extends to the vicinity of the opening 29 a of the main body 29.
The dimensions of the side plate portion 52c and the cover plate portion 54 in the y direction are substantially the same as the entire space between the pair of facing surfaces 34f and 36f at least temporarily when the stator 34 and the mover 36 are separated from each other. Has a size capable of covering from the x direction.
As will be described later, the cover part 50 has a function of preventing the diffusion of air and a function of preventing the components s dropped by the jet of air from scattering.

An opening 60a of the air passage 60 facing the facing surface 36f of the mover 36 is provided in a member on the stator side (for example, an upper portion of the stator 34 or a portion of the stator holding body 55 above the stator 34 or the main body 29). Is formed. As shown in FIG. 3, the air passage 60 includes an air ejection passage 60s generally extending in the y direction, an internal passage 60h formed in the main body 29, and the like. The air ejection passage 60s extends in a downward direction as it approaches the mover 36, and when the mover 36 is at a position separated from the stator 34, the extension line k is the opposite surface 36f of the mover 36. It extends above the portion R or within the portion R. The portion R is a portion that frequently grips the component s of the facing surface 36f of the mover 36, and can be referred to as a grip portion. The air strikes the portion of the facing surface 36f where the extension line k intersects from diagonally above.
Air cylinders 64 and 70 are connected to the air passage 60. Further, an ionizer 62 is provided in a portion of the air passage 60 on the downstream side of the air cylinders 64 and 70. The ionizer 62 causes corona discharge to ionize the air, and the ionized air can be supplied to the facing surface 36f.

The holding table moving device 40 includes an air cylinder 64 as a drive source fixedly provided on the main body 29 or the base portion 30. The mounting portion holder 46 is connected to the piston rod 66 (see FIG. 5) of the air cylinder 64. The air cylinder 64 includes two air chambers 64a and 64b, which are partitioned by a piston, inside a cylinder housing. A valve device 69 is provided. The solenoid valve device 69 may include one or more solenoid valves, for example, a directional control valve and a variable throttle, as shown in FIG. The direction switching valve controls the moving direction of the mounting portion holder 46, and the variable throttle controls the movement/stop of the mounting portion holder 46. By the solenoid valve device 69, the air chamber 64b is communicated with the air source 68 and the air chamber 64a is communicated with the air passage 60, so that the holding table 32 is moved forward (moved in the direction of arrow F in FIG. 3). When the chamber 64b is opened to the atmosphere and the air chamber 64a is communicated with the air source 68, the holding table 32 is retracted (moved in the direction of arrow B in FIG. 3).

The mover moving device 41 includes an air cylinder 70 as a drive source fixedly provided in the main body 29. A mover holder 56 that is movable integrally with the mover is connected to the piston rod 71 of the air cylinder 70. Two air chambers 70a, 70b partitioned by a piston inside the housing of the air cylinder 70 are connected to an air source 68, an air passage 60, and a filter (atmosphere) via a solenoid valve device 72. The electromagnetic valve device 72 includes one or more electromagnetic valves, and may include, for example, a direction switching valve, a variable throttle, and the like. The solenoid valve device 72 causes the air chamber 70b to communicate with the air passage 60 and the air chamber 70a to communicate with the air source 68, whereby the mover 36 is retracted, and the air chamber 70a is opened to the atmosphere and the air chamber 70b. Is moved to the air source 68, the mover 36 is moved forward.
In this embodiment, the air cylinders 64 and 70, the air passage 60 (including the air ejection passage 60s), the opening 60a, the cover portion 50, the ionizer 62, and the like constitute an air supply device 73. The air supply device 73 is also a mover supply unit and a drive source interlocking type supply unit. Further, the facing surface 36f corresponds to the supply target surface.
The structure of the solenoid valve devices 69 and 72 is not limited to that of this embodiment. For example, one three-position valve may be included, or a plurality of open/close valves may be included. Further, it is not essential to provide the ionizer 62.

A pair of guide rods 74 and 75 extending in the y direction are provided between the mover holder 56 and the main body 29, and a pair of guide rods 74 and 75 extending in the y direction are provided between the holder 32 and the mover holder 56. A pair of guide rods 76, 77 are provided. One ends of the guide rods 74 and 75 are connected to the mover holder 56, and the other ends are slidably engaged with the main body 29. The guide rods 76, 77 are connected to the mounting portion holding body 46 at one end and slidably engaged with the mover holding body 56. With these guide rods 74, 75, 76, 77, the holding table 32 and the mover 36 can be moved relative to each other in the y direction with respect to the main body 29, and the holding table 32 and the mover 36 can be moved in the y direction. It is possible to move relative to.
Further, as shown in FIG. 3, a stopper 82 is provided on the stator side of the mover holder 56, and a stopper 80 is provided on a portion of the main body 29 which holds the stator holder 55. The stopper 82 defines the approach limit between the mover holder 56 and the holder 32 (mounting portion holder 46), and the stopper 80 is the stopper 34 (main body 29) and the holder 32 (mounting portion). It defines the approach limit with the part holder 46).
In this embodiment, the guide rods 74 to 77 are shared by the holding table moving device 40 and the mover moving device 41, and the stoppers 80 and 82 can be considered to be components of the holding table moving device 40.
As shown in FIG. 3, the gap Ld between the front end portion of the stopper 82 when the mover 36 is at the retracted end position and the mounting portion holder 46 when the holder 32 is at the advanced end position. Is a distance that allows relative movement between the mover 36 and the holding table 32.

The mounting machine includes the control device 100. As shown in FIG. 6, the control device 100 includes a controller 102 mainly composed of a computer and a plurality of drive circuits 104. The controller 102 includes an execution unit 110, a storage unit 112, an input/output unit 114, and the like. In the input/output unit 114, the board transfer/holding device 4, the component supply device 6, and the head moving device 8 respectively include a drive circuit 104. The movable element moving device 41, the solenoid valve devices 69 and 72 of the holding table moving device 40, and the like are connected. Further, the LCR detection unit 42, the display 116, the mover position sensor 118, the holding base position sensor 120, the nozzle height sensor 122 that detects the height of the nozzle 18, and the like are connected. The storage unit 112 stores a plurality of programs and tables such as the LCR detection program shown in the flowchart of FIG. Further, the timer 124 provided in the controller 102 measures time.
In the present embodiment, the case where the entire mounting machine is controlled by the control device 100 has been described. However, the board transfer/holding device 4, the component supply device 6, the head moving device 8 and the like are controlled by individual control devices. It can also be done.

The operation of the mounting machine will be described below.
When a new tape feeder 14 is set, the tape feeder 14 is replaced, or the like, the electrical characteristics of the component s held by the tape feeder 14 are measured, and the tape is changed. It is checked whether the feeder 14 (or the part s) is suitable. Further, the inspection result is displayed on the display 116. If it is inappropriate, the tape feeder 14 is replaced.

The electrical characteristics of the component s are measured by executing the LCR measurement program represented by the flowchart of FIG. Further, FIG. 7B shows the movements of the holder 32, the mover 36, and the states of the holder position sensor 120 and the mover position sensor 118.
The inspection device 22 is always in the initial state shown in FIG. The mover 36 is at the retracted end position, and the holding table 32 is at the advanced end position, that is, the position where it abuts on the stopper 80. In this state, the holding table 32 is grounded by internal conduction or the like. The mover 36 does not exist above the V groove 44c of the holding table 32, and the component s can be placed. Further, the cover portions 50 are located on both sides of the stator 34 (separated in the x direction). The mover position sensor 118 and the holding base position sensor 120 are both in the ON state.
In step 1 (hereinafter abbreviated as S1; the same applies to other steps), it is determined whether or not a command to measure the electrical characteristics of the component s has been issued. When the setup is changed, a command to measure the electrical characteristics is issued. When the measurement command is issued, in S2, the mounting head 16 is moved, for example, the component s held by the newly attached tape feeder 14 is picked up by the suction nozzle 18, and the V groove 44c of the holding table 32 is picked up. Can be placed on top. It can be seen that the suction nozzle 18 is lowered and the component s is opened, so that the component s is placed on the V groove 44c.

Then, when the nozzle height sensor 122 detects that the suction nozzle 18 has placed the component s on the V groove 44c and has reached the rising end, in S3, the mover 36 is moved by the control of the electromagnetic valve device 72. The mover position sensor 118 is advanced and switched from ON to OFF. The facing surface 36f at the tip of the mover 36 is advanced along the V groove 44c of the component mounting portion 44, and the component s is clamped by the facing surface 36f and the facing surface 34f of the stator 34 {FIG. b)}. In the present embodiment, the mover 36 from the retracted end position until the part s is clamped
Stroke L ₁ (see FIG. 3) is determined by the size of the component s to be clamped and the like, and is predetermined. After the advance time, which is the time required for the mover 36 to advance the stroke L ₁ from the start of the mover 36 advance, the advance of the mover 36 is stopped by the control of the variable aperture. The advance time is measured by the timer 124. The holding table 32 is at the forward end position, the mover 36 is moved forward, and the part s is clamped by the pair of facing surfaces 34f and 36f, which is a clamped state.

In S4, the holding table 32 is retracted by the control of the solenoid valve device 69, and the holding table position sensor 120 is switched from ON to OFF. The holding table 32 is retracted until it comes into contact with the stopper 82 {Fig. 9(c)}, and is held at that position. The stroke of the holding table 32 during that time is L ₂ (see FIG. 3).
L ₂ =Ld-L ₁
In the present embodiment, the stroke L ₂ is set to be equal to or larger than the set value Lx (L ₂ ≧Lx), and the component mounting portion 44 is separated from the component s by the set value Lx or more. Accurate detection of electrical characteristics, such as electrostatic induction or eddy current, when a conductive member (component mounting portion 44) is located near the component s when measuring electrical characteristics. I can't. On the other hand, if the component mounting portion 44 is separated from the component s by the set value Lx or more (if the shortest distance between the component mounting portion 44 and the component s is the set value Lx or more), the component mounting portion 44 is It is possible to reduce the measurement error of the electrical characteristics caused by being located near the component s. As described above, the set value Lx is a distance at which the component placement unit 44 hardly affects the measurement of the electrical characteristics of the component s, and is a value acquired in advance by experiments or the like. This state is the measurement state.
It should be noted that the position of the holding table 32 is held by the control of the solenoid valve device 69 after the backward time Ta, which is the time required for the holding table 32 to move backward by the stroke L _2, has elapsed from the start of the backward movement of the holding table 32. .. The retreat time Ta is measured by the timer 124.

In S5, it is awaited that the static elimination time, which is the set time, elapses after the component s is opened by the suction nozzle 18 and placed on the V groove 44c. Each of the parts s held by the tape feeder 14 is in a charged state due to static electricity generated due to vibration accompanying the transportation of the tape feeder 14 and contact with an object. The charged component s is made of a conductive material and placed on the grounded component placement portion 44 to remove electricity, or discharge into the air to remove electricity. The static elimination time is the time required to remove the static electricity of the capacity estimated to be possessed by the component s, and is obtained in advance by experiments or theoretically based on the size and characteristics of the component s. You can do things like When the elapsed time after the component s is placed on the component holder 44 reaches the static elimination time, the determination in S5 is YES, and the electrical characteristics of the component s are measured in S6.
When the measurement time, which is the time required to measure the electrical characteristics, elapses, S7 is executed, but the measurement time may be a time determined by the type of the component s or a fixed time. In any case, it is acquired and stored in advance.

When the measurement time has elapsed and the measurement of the electrical characteristics of the component s is completed, the mover 36 is retracted by the control of the solenoid valve device 72 in S7. When the retracted end is reached, the mover position sensor 118 is turned on. In S8, the holding table 32 is retracted by the control of the solenoid valve device 69 {Fig. 9(d)}. The stroke from when the holding table 32 comes into contact with the stopper 82 of the movable element 36 at the retracted end position from the measurement state is L ₁ . Therefore, it can be seen that the holding table 32 comes into contact with the stopper 82 after the retreat time Tb, which is the time required to retract the stroke L _1, has elapsed. As shown in FIG. 9D, the holding table 32 is located rearward of the facing surface 36f of the mover 36 and does not exist below the pair of facing surfaces 34f and 36f. This state is the discard state.
When the holding table 32 is retracted until it comes into contact with the stopper 82, in S9, the air chamber 64b in the air cylinder 64 is made to communicate with the air source 68 by the control of the solenoid valve device 69, and the air chamber 64a is brought into the air passage 60. Can be communicated. When the holder 32 is advanced and hits the stopper 80, the holder position sensor 120 is turned on. The holding table 32 is located between the pair of facing surfaces 34f and 36f (the V groove 44 is located below the facing surfaces 34f and 36f), and the space above the V groove 44c. Therefore, the component s can be placed. This state is the initial state.

By separating the facing surface 36f of the mover 36 from the facing surface 34f of the stator 34, the component s held between them is released. Further, when the mover 36 is retracted, the air chamber 70a of the air cylinder 70 is communicated with the air passage 60, and the cover plate portions 52 and 54 are respectively in the x direction of the space between the pair of facing surfaces 34f and 36f. Located on both sides of. Further, since the holding table 32 is moved to the rear of the facing surface 36f of the mover 36, it does not exist below the pair of facing surfaces 34f and 36f, and the opening is provided between the pair of facing surfaces 34f and 36f. 29a, 30a and the waste passage 28 are communicated.
As the mover 36 retreats, the air flown out of the air chamber 70a is supplied from the opening 60a to the facing surface 36f of the mover 36 obliquely from above. The space between the facing surfaces 34f and 36f is covered by the cover portion 50 from the x direction. The air mainly hits the facing surface 36f and then flows downward along the facing surface 36f. Therefore, even if the component s does not drop from the facing surface 36f and is attached to the portion R, it can be dropped well. Further, since the air flows in a spiral shape inside the cover portion 50, even if the component s is attached to the facing surface 34f of the stator 34, it can be dropped. Further, although the component s dropped from the facing surfaces 34f and 36f and placed on the holding table 32 can also be dropped by the air, if the component s is placed on the V groove 44 and is not dropped by the air. Even if there is, it is possible to surely drop it by advancing the facing surface 36f of the mover 36 as the holding table 32 moves backward. As described above, in the present embodiment, the discarding state can be considered as a state in which the component s is properly dropped.
The component s dropped from the pair of facing surfaces 34f and 36f is properly stored in the dustbin 26 through the openings 29a and 30a and the waste passage 28.

Further, by providing the cover part 50, the dropped parts s can be prevented from scattering. Since the side plate portion 52c of the cover plate portion 52 and the lower end portions of the cover plate portion 54 extend to the vicinity of the opening 29a of the main body 29, the component s is properly accommodated in the trash can 26 through the waste passage 28 from the opening 29a. be able to. On the other hand, when the ionized air is supplied, the facing surfaces 36f and 34f of the mover 36 and the stator 34 can be electrically neutralized, and the measurement accuracy of the electrical characteristics of the next component s can be improved. Can be improved.
Further, in the air cylinder 64, the air chamber 64a is communicated with the air ejection passage 60s when the holding table 32 is advanced (S9). Even when shifting from the discarding state to the initial state, air can be supplied to the facing surface 36f of the mover 36, so that the facing surface 36f of the mover 36 can be effectively discharged.

On the other hand, the measured electrical characteristics and the electrical characteristics included in the JOB information are compared to determine whether the part s is to be used for the work (JOB) to be performed from now on,
The determination result is displayed on the display 116.
In S21, the measured value of the electrical characteristic of the component s is acquired, and in S22, the corresponding information is read from the JOB information of the next JOB. In S23, these are compared and it is determined whether they match. The determination result is displayed on the display 116 regardless of whether they match or not. If they do not match, work such as replacement with an appropriate tape feeder is performed.

As described above, in this embodiment, the component mounting portion 44 is made of a conductive material and is grounded. As a result, it is possible to satisfactorily eliminate the charge of the component s placed on the component placement portion 44 before measuring the electrical characteristics. On the other hand, when the component s is charged, it is difficult to measure the impedance of the component s. On the other hand, in this embodiment, since the static elimination of the component s is performed well, the impedance of the component s can be favorably measured.
Furthermore, since the part s can be dropped into the waste passage 28 in parallel with the retreat of the mover 36, compared with the case where the retreat of the mover and the delivery of the part s are performed in different steps, The time required to measure the electrical characteristics can be shortened.

As described above, in this embodiment, S4 of the LCR measurement program of the controller 102 is
, 7 and 8 are stored and executed, the timer 124, the mover position sensor 118, the holding base position sensor 120 and the like constitute a movement control device and a relative movement control device. Further, among them, a part for storing S4, a part for executing, and the like constitute a measurement time control unit, a part for storing S8, a part for executing, and the like constitute a discard time control unit, and a part for storing S9 and execution. The preparatory control unit is configured by the parts to be operated. The movement control device is also a holding table movement control device and a relative movement control unit.
The air cylinder 70 corresponds to the mover cylinder, and the air cylinder 64 corresponds to the holding table cylinder. The air supply device 73 is also a mover supply unit and a drive source interlocking type supply unit. Furthermore, the electrical characteristic acquisition device is configured by the pair of measuring elements 37, the electric circuit 58 including the LCR detection unit 42, the part of the controller 102 that stores S6, the part that executes S6, and the like.
Further, S3 corresponds to the clamping process, S4 and 6 correspond to the measuring process, S7 and 8 correspond to the discarding process, and S9 corresponds to the preparing process.

It should be noted that both the pair of tracing stylus can be moved and the holder can be fixed to the main body. Even in that case, the pair of gauge heads grips the component s placed on the holder and the pair of gauge heads are moved, so that the holder can be separated from the component s by a set value or more. ..
Further, the holding table can be movable in the vertical direction. Even in that case, the holding table can be separated from the component s by the set value or more in the state where the component s is clamped by the pair of tracing stylus.
Further, the air ejection passage may be provided at the side portion of the main body 29 of the inspection device 22 with an opening that opens generally in the x direction. In other words, it is possible to eliminate either one of the cover plate portions 52 and 54 (for example, to eliminate the cover plate portion 54), and provide the air ejection passage having an opening in the x direction on the side where the cover plate portions 52 and 54 are removed. As a result, the air is supplied toward the cover plate portion 52 along the facing surfaces 34f and 36f (surfaces extending in the xz direction), and thereby adheres to the pair of facing surfaces 34f and 36f. It is possible to drop the removed component s.
It is also possible to move the holding table 32 backward (for example, to move backward at the same time) as the mover 36 moves backward after measuring the electrical characteristics of the component s. The state in which the holding table 32 and the mover 36 are retracted can be set as the discarding state.
Further, the mover position sensor 118 and the holding base position sensor 120 are not essential. For example, the solenoid valve devices 69 and 72 can be controlled by measurement by the timer 124. In addition to the aspects described in the above embodiments, the present invention can be implemented in various modified and improved forms based on the knowledge of those skilled in the art, such as an air supply device is not essential.

22: Inspection device 26: Trash bin 28: Waste passage 29: Main body 29a: Opening 30: Base part 30a: Opening 31: Fastening part 32: Holding table 34: Stator 36: Movable element 34f, 36f: Opposing surface 40: Holding table Moving device 41: Mover moving device 42: LCR detecting part 44: Component mounting part 44c: V groove 50: Cover part 72: Air supply device 100: Control device 118: Mover position sensor 118: Holding table position sensor 124: Timer

Patentable invention

(1) An inspection device included in a mounting machine that picks up components supplied by a component supply device and mounts them on a circuit board,
A holding table that can hold parts,
A pair of stylus capable of approaching and separating from each other and measuring the electrical characteristics of the part with the part sandwiched therebetween,
A holder moving device for moving the holder,
And a holding table movement control device for controlling the holding table moving device, and the holding table movement control device, from the clamped state in which the pair of tracing stylus grips the component held by the holding table, An inspection apparatus, comprising: a measuring time control unit that separates a holding table from the component by a set value or more to bring the electrical characteristics of the component into a measurable state.
The holding base may be movable in a direction parallel to the approaching/separating direction of the pair of tracing styli, or may be movable in the intersecting direction. The set value can be set to a distance at which the influence of the holding table is difficult to measure the electrical characteristics of the component when the holding table has conductivity, for example.
(2) The inspection device according to item (1), wherein the holding table has conductivity.
(3) The pair of tracing stylus includes a pair of facing surfaces facing each other and capable of contacting the component, and the pair of facing surfaces are brought close to each other to hold the component and separate them from each other. Release the parts by
When the holding table moving device moves from the measurement state, the holding table is moved to a discarding state in which the holding table does not exist below the pair of facing surfaces separated from each other. The inspection apparatus according to item (1) or (2) including
(4) The holding table movement control device moves the holding table from the discarding state to a lower position between the pair of facing surfaces separated from each other, and the holding table can initially hold the component. The inspection apparatus according to item (3), including a preparation control unit for setting a state.
(5) The mounting machine includes a waste passage connected to the inspection device, and the main body of the inspection device has an opening capable of communicating with the waste passage. (1) to (4) Inspection device described in.
The position and size of the opening can be determined so as to be at least in the opening state below the pair of facing surfaces in the discarding state.
(6) Electrical property acquisition in which the inspection device supplies the current between the pair of probes and detects the current flowing between the pair of probes to acquire the electrical properties of the component. A device that includes a device, in which the electrical characteristic acquisition device starts a measurement of the electrical characteristic of the component when a preset time or more has elapsed from the time when the component was placed on the holding table, the delay type measurement. The inspection apparatus according to any one of (1) to (5), including a part.
The set time may be, for example, a static elimination time that is a time required for static elimination of the component. The static elimination time may be a time determined by the part or a predetermined time regardless of the part.
It should be noted that the time during which the parts are placed on the holding table can be used as the static elimination time.
(7) The pair of measuring elements includes a stator fixed to the main body and a mover movable relative to the stator,
The inspection apparatus includes a mover moving device that moves the mover with respect to the stator, and a mover movement control unit that controls the mover moving device to move the mover closer to or away from the pair of gauges. The inspection apparatus according to any one of (1) to (6), including:
(8) The inspection device according to the item (7), wherein the inspection device includes a connection mechanism that connects the mover and the holding table so as to be relatively movable with respect to each other.
For example, the mover can have a longitudinal shape extending parallel to the moving direction of the mover. Further, the holding table may be located in the front or the rear of the tip of the mover.
(9) The holding base has a V groove that is a groove having a V-shaped cross section, and the cross section of at least one tip of the pair of tracing stylus has a triangular shape corresponding to the V groove. The inspection apparatus according to any one of (1) to (8).

(10) An inspection device included in a mounting machine that picks up a component supplied by a component supply device and mounts it on a circuit board,
A holding table that can hold parts,
A pair of stylus capable of approaching/separating from each other and capable of measuring the electrical characteristics of the part while sandwiching the part,
A relative moving device that relatively moves the pair of measuring elements and the holding table,
And a relative movement control device for controlling the relative movement device, and the relative movement control device, from the clamped state in which the pair of tracing stylus grips the component held on the holding base, the component and the An inspection apparatus comprising: a measurement time control unit that separates the holding table from a set value or more to bring the electrical characteristics of the component into a measurable state.
The inspection device described in this section can employ the technical features described in any of (1) to (9).
The relative moving device is (a) a device for fixing the holding base and moving the pair of tracing styli, or (b) fixing one of the pair of tracing styli and moving the other of the pair of tracing styli and the holding base. It can be used as a device for making it. In the case of (a), for example, in a state in which the part held by the holding table is clamped by the pair of measuring elements, the pair of measuring elements are moved relative to the holding table, and the parts and the holding table are set. The case where they are separated by more than the value is applicable.

(11) A mounting machine that picks up the components supplied by the component supply device and mounts the components on the circuit board, and (i) a holding base that can hold the components, and (ii) be able to approach and separate from each other,
A method for inspecting the electrical characteristics of the component in an inspection device including a pair of measuring elements capable of measuring the electrical characteristics of the component with the component sandwiched therebetween,
A clamping step in which the pair of measuring elements grips the component held on the holding table,
And a step of measuring the electrical characteristics of the component by separating the holder from the component gripped by the pair of measuring elements by a set value or more.
The inspection method described in this section can be executed by the inspection apparatus described in any of (1) to (10).
(12) A discarding step in which the pair of measuring elements are separated from each other after the measuring step is performed, and the holding base is retracted from a lower region between the facing surfaces of the pair of measuring elements facing each other,
The inspection method according to the item (11), further comprising: a preparatory step of causing the holding table to enter below between the facing surfaces of the pair of tracing stylus facing each other so as to be in an initial state in which the component can be held.
In the discarding process, the separation of the pair of probes and the withdrawal of the holding table may be performed in sequence or in parallel.

(13) An inspection device included in a mounting machine that picks up a component supplied by a component supply device and mounts it on a circuit board,
A holding table that has conductivity and holds parts,
An inspection apparatus, comprising: an electric characteristic acquisition device that grasps the component held by the holding base and acquires an electric characteristic of the component in a state where the component is separated from the holding base.
The inspection device described in this section can employ the technical features described in any one of (1) to (12).

(14) When the pair of measuring elements are brought close to each other, the pair of facing surfaces sandwich the component, measure the electrical characteristics of the component, and are separated from each other, so that the pair of facing surfaces are spaced from each other. To release the parts from
The inspection device includes an air supply device that supplies air to the supply target surface that is at least one of the pair of opposed surfaces when the pair of measuring elements are separated from each other (1) to (13). ) The inspection apparatus according to any one of paragraphs.
The case where the pair of tracing stylus are separated corresponds to the case where the stylus is separated from each other, a part or the whole process during the separation, the start of separation, the end of separation, and the like.
(15) The inspection apparatus according to (14), wherein the air supply device includes an ionizer that ionizes the air, and supplies the ionized air to the supply target surface.
(16) The inspection device according to item (14) or (15), wherein the air supply device includes an air passage having an opening facing the supply target surface.
When the supply target surface is one of the pair of facing surfaces, one opening is provided to face the one supply target surface, and when the supply target surface is both of the pair of facing surfaces, Two openings are provided facing each other.
(17) The inspection apparatus according to the item (16), wherein the air passage includes an air ejection passage inclined downward as approaching the surface to be supplied.
(18) The inspection device according to (17), wherein the inclination angle of the air ejection passage is an angle at which the air hits above a portion of the supply target surface that grips the component.
(19) The pair of measuring elements includes a stator fixed to the main body and a mover capable of approaching and separating from the stator,
The air supply device includes a mover supply unit that supplies the air to the surface of the mover facing the supply target surface when the mover is separated from the stator (14) to (14). The inspection apparatus according to any one of 18).
(20) The inspection device includes a mover moving device that includes a mover cylinder and moves the mover toward and away from the stator by the operation of the mover cylinder.
The air supply device includes a drive source interlocking type supply unit that supplies air, which is caused to flow out from the mover cylinder with the separation of the mover from the stator, to an opposing surface of the mover (19). The inspection apparatus according to item.
(21) The inspection device according to any one of items (1) to (20), wherein the inspection device includes a cover portion that covers the pair of opposed surfaces in a state of being separated from each other.
The cover part covers most of the space between the pair of facing surfaces, and does not necessarily cover the entire space between the pair of facing surfaces, and may cover the space with some clearance. Good. It is desirable that the entire space between the pair of facing surfaces be covered from both sides at least once when the pair of facing surfaces are separated from each other.
(22) The cover part is attached to the holding table and covers most of the space between the pair of facing surfaces from the side when the holding table is at the retracted end position. Inspection equipment.

The present invention relates to an electrical characteristic measuring method and a circuit board to obtain the electrical characteristics of the part to be mounted on the circuit board to the component mounting method of mounting the components.

Claims (3)

It is installed in a mounting machine that picks up the components supplied by the component supply device and mounts them on the circuit board.
A holding table that has conductivity and holds parts,
An inspection apparatus, comprising: an electric characteristic acquisition device that grasps the component held by the holding base and acquires an electric characteristic of the component in a state where the component is separated from the holding base. The inspection according to claim 1, wherein the electrical characteristic acquisition device starts measuring the electrical characteristic of the component after a set time has elapsed after the component was placed on the holding table. apparatus. The electrical characteristic acquisition device is provided so as to be able to approach and separate from each other, and sandwiches the component held by the holding base, and includes a pair of tracing stylus capable of measuring the electrical characteristic of the component,
The inspection apparatus, the relative movement device that relatively moves the holding table and the pair of measuring elements to each other, and the holding table and the parts are set to each other in a state where the component is gripped by the pair of measuring elements. The inspection device according to claim 1, further comprising a relative movement control unit that separates the value by a value or more.

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