XP Type II 工程师培训手册 (2.0) - 第86页

FK-9F98-34 XP T ype II Series T raining T ext for Service Engineers Edition 2.0 XP142E – Chapter 6 Proper Dat a Measurement s Page 27 of 30 8. Bring the nozzle jig above the p art s gage and descend the Z-axis unt il the…

FK-9F98-34 XP Type II Series Training Text for Service Engineers

Edition 2.0 XP142E – Chapter 6 Proper Data Measurements Page 26 of 30

6.22 Parts Reject Position

1. Select [Maintenance A] – [Jog] – [Fiducial Camera] and display the cross hairs on the

screen.

2. Jog the fiducial camera until it is in the center of the parts reject box. Refer to the

diagram below for the dimensions of the box:

12.5mm

35mm

3. Select [Maintenance C] – [Proper Data Editor] – [Dispose Position] –

[X_Disposal1/Y_Disposal1] – [Direct Servo Input] to save the current X-axis and Y-axis

positions in proper data.

6.23 Parts Gage Pickup Positions

1. Equipment: nozzle jig (A5706ASEAJ8100). Lever type dial gage (0.01mm).

2. Select [Maintenance A] – [Jog] – [Fiducial Camera] and display the cross hairs.

3. Carefully remove the three ceramic parts gages from the parts gage station so that the

parts gage indents and vacuum holes are visible.

4. Center the cross hairs on the parts gage 1 vacuum hole and select [Maintenance C] –

[Proper Data Editor] – [Jig Position] – [Y_JigPickPos] – [Direct Servo Input] and

[X_JigPickPos1] – [Direct Servo Input] to save the current X and Y axis counter values to

proper data.

2 3

10 10 10

5. Return to the jog screen and center the cross hairs on the parts gage 2 vacuum hole and

select [X_JigPickPos2] – [Direct Servo Input] to save the current X axis counter value to

proper data.

6. Return to the jog screen and center the cross hairs on the parts gage 3 vacuum hole and

select [X_JigPickPos3] – [Direct Servo Input] to save the current X-axis counter value to

proper data.

7. Insert the nozzle jig in nozzle piston no.1 and replace the no.1 parts gage in the parts

gage station.

Fuji Machine Mfg. Co., Ltd. Okazaki

SMT Equipment Quality Assurance Dept.

6 – 26 CS Section

FK-9F98-34 XP Type II Series Training Text for Service Engineers

Edition 2.0 XP142E – Chapter 6 Proper Data Measurements Page 27 of 30

8. Bring the nozzle jig above the parts gage and descend the Z-axis until the nozzle jig

almost contacts the parts gage.

9. Place a dial gage on the nozzle jig and use this to determine the point where the nozzle

jig first contacts the parts gage.

10. Select [Z_JigPickPos] – [Direct Servo Input] to save the current Z-axis counter value to

proper data.

6.24 Matrix Data

1. Equipment: glass gage for matrix measurement (A5704DEAJ14013).

2. Note that the matrix data measurement should be carried out when the machine is cold,

otherwise the results will not be reliable. Fuji recommends that the machine is not used

for at least two hours prior to the measurement.

3. Clamp the matrix measurement glass gage approximately 110mm from the main

conveyor right end.

Approx. 110mm

Main conveyor right end

Glass gauge for matrix data

(A5704DEAJ1013)

4. Because the glass gage is 5mm thick the main lifter upper limit sensor will not come ON

when the gage is clamped. As a result it is necessary to interrupt the upper limit sensor

with a piece of paper tape.

5. Select [Maintenance A] – [Jog] – [Fiducial camera] – and display the cross hairs on the

screen.

6. Center the fiducial camera on the last dot in the bottom left hand corner of the glass gage

and record the Y-axis counter value.

7. Move the fiducial camera until it is centered on the last dot in the bottom right hand

corner of the glass gage. Compare the current Y-axis counter value with that recorded in

step 6. The difference in value should be within 0.5mm. This ensures that the X-axis and

the glass gage are parallel.

8. With the fiducial camera still centered on the last dot in the bottom right hand corner of

the glass gage select [Maintenance C] – [Matrix data measurement] – and set the

acceleration rate to 1.0 before selecting [Start].

9. The measurement will take approximately 1 hour to complete. Matrix data measurement

is designed to compensate for minute discrepancies in the straightness of the X and Y-

axis ball screws. The measurement is performed in the factory prior to machine shipment

and is not normally performed again.

Fuji Machine Mfg. Co., Ltd. Okazaki

SMT Equipment Quality Assurance Dept.

6 – 27 CS Section

FK-9F98-34 XP Type II Series Training Text for Service Engineers

Edition 2.0 XP142E – Chapter 6 Proper Data Measurements Page 28 of 30

6.25 Conveyor Width Changer

1. Equipment: lever type dial gage (0.01mm). Width defining mark bracket height

adjustment jig (A9531DEPJ1250).

2. Set the jig adjacent to the width defining mark bracket on the adjustable rail.

Flatness should be

within 0.05mm

Set the dial to “0”

Height jig

3. Set the dial gage to 0 on the reference side of the jig and slide it across the width defining

mark bracket.

4. Adjust the height of the bracket so that it is the same height as the jig (tolerance +/-

0.05mm). The flatness of the bracket should be within 0.05mm.

5. Set the conveyor width to approximately 100mm.

6. Select [Maintenance A] – [Jog] – [Fiducial] – and display the cross hairs on the screen.

7. Center the fiducial camera on the glass gage station fiducial mark and record the X-axis

counter value at this position.

8. Inch the fiducial camera in the Y direction until the width defining bracket comes into view,

then center the camera on the width defining mark.

9. Record the X-axis counter value at this position and subtract this figure from the X axis

counter value recorded in step 7. This value is the “ConvWidthMarkDiffX” proper data.

10. Select [Maintenance C] – [Proper data editor] – [Others] – [ConvWidthMarkDiffX] – and

manually input the figure calculated at step 9.

11. In the following example the ConvWidthMarkDiffX would be 1mm:

X-axis counter:

135.000 mm

ConvWidthMarkDiffX

X-axis counter:

136.000 mm

Fuji Machine Mfg. Co., Ltd. Okazaki

SMT Equipment Quality Assurance Dept.

6 – 28 CS Section