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22 

 

Remote Buck-In 

 

As the distance between the laser and the near target 

increases with respect to the distance between the two 

targets, bucking in by the close method becomes nearly 

impossible. A special remote procedure has been 

developed for these situations. The remote buck-in uses 

simple geometry to make the laser beam parallel to the 

centerline of the two targets, and then centers the beam 

on that line. Figure 15 illustrates how the remote method 

works. 

 

Unlike normal buck-in, where the laser is pointed 

to

 zero 

on the far target, the remote procedure has the laser point 

through

 zero to a point called the "set." The set distance 

is the offset between the parallel laser beam and the target 

centerline. 

 

The uncorrected laser 

beam, the offset parallel 

beam and the set dis-

tance form a triangle. 

The uncorrected laser 

beam, the target center-

line and the distance 

between the far target 

center and the far read-

ing form a second trian-

gle. The two triangles 

have the same three an-

gles and are therefore 

geometrically identical 

(see Figure 16). 

 

A relationship between these two triangles can be stated in the formula, “The set is to L1 as the far 

reading is to L2.”  Stated mathematically, the ratio is Set/L1 = Far/L2.  If L1, L2, and the far reading are 

known, the set can then be determined by the following formula: Set = -(Far reading * L1/L2).  

 

(

Note:

 This is a simplified formula for cases where the laser beam is centered on the near target). 

 

In remote buck-in, point 

through

 zero to the set point. This means moving the laser until it reads the set 

amount on the 

other side

 of zero from the starting point.  In doing so, the sign of the number (negative or 

positive) will be reversed. Figure 16 illustrates this by taking sample readings and showing how the set 

point is derived. Notice the far reading is a negative number and the set  point is  positive as you go 

"through zero," resulting in a laser beam parallel to the target centerline, but offset by the set distance. 

 

If the calculated set point exceeds the linear range of the target, (for example, the A-1519 target has a 

range of 1.0  in.  or 25 mm) 

the laser unit itself must be moved

  by the set  point amount. New 

measurements must then be retaken for both targets, and a new set calculated.  

 

Figure 17 shows how to move the laser depending upon the sign of the calculated set point. (

Note:

 If the 

laser is mounted on an L-106A screw lift stand, each full turn of the knob lifts or lowers the stand .125 in. 

or 3 mm). 

 

 

Figure 15 – 

Remote Buck-in 

 

Figure 16 - 

Calculating the Set Point

 

Содержание Dual Scan L-732

Страница 1: ......

Страница 2: ...ing the alignment measurements For best results do not start taking measurements until the recommended warm time has passed It is always a good metrology practice to periodically check your reference...

Страница 3: ...ticles of equipment manufactured by other companies and limited by a warranty extending for less than one year In such an event the more limited warranty applies to said instrument or article of equip...

Страница 4: ...al Pitch Axis 13 Checking the Levels for Accuracy 13 Measurement Overview 14 Selecting Reference Points on Machine Tools 14 Selecting Reference Points on Process Mills 14 Measurement Summary 15 Measur...

Страница 5: ...sfer line wing bases Injection molding machines and presses Aircraft assembly seat track alignment setting water butt and station planes wing to body and body to body join alignment etc Roll paralleli...

Страница 6: ...and targets fit into a small portable shipping case Diode laser 2 times more stable than HeNe based laser systems Battery or AC powered Laser planes flat to arc seconds 00003 in ft or 0 0025mm m in 18...

Страница 7: ...to body and body to body join alignment etc Saw mills Vertical press alignment Measuring and aligning The flatness of almost any horizontal or vertical surface squares frames ways flanges circles etc...

Страница 8: ...p times Applications for alignments with tolerances of 00002 in ft or 0 0017 mm m or higher Roll parallelism in paper mills printing presses and film lines Leveling almost any surface squares frames w...

Страница 9: ...m stability Applications for alignments with tolerances of 00015 in ft or 0 01 mm m or greater Normal or blown film lines roll alignment Rubber roll alignment Leveling almost any surface squares frame...

Страница 10: ...ine adjustments see Figure 1 Number of laser planes the L 743 and the L 733 have three laser planes and the L 742 and L 732 have two laser planes that can be factory configured for two vertical planes...

Страница 11: ...parallel to your references However doing this may result in some laser drift Accordingly if you use the laser prior to the warm up period it is recommended that you go back and check your references...

Страница 12: ...on speed control This control slows the scanner spin until you can see the laser beam pass over the target the farther away the target is located the slower the turret must spin Figure 3 shows control...

Страница 13: ...ure calibrates only one level vial at a time and must be repeated for the other axis Note 2 It is very important to warm up the laser for at least 30 minutes before starting this procedure It is also...

Страница 14: ...alibration of the Level Vials Roll Axis Note It is very important to warm up the laser for at least 30 minutes before starting this procedure It is also very important to level both the Pitch and Roll...

Страница 15: ...tance between the points The result is the calibration of the level vial in units of in ft or mm m To be within specifications the calibration result should be as follows Split Prism Vial Assembly 000...

Страница 16: ...ulating the Calibration of the Levels Vials Pitch Axis 1 Level the laser Rotate the entire laser unit 90 to calibrate the Pitch Axis level vial Using the adjustment knobs level the laser so that both...

Страница 17: ...Pitch Axis level you are adjusting Using the wrench provided adjust the level assembly until the bubble is centered in the window for the Standard Level vials or the two halves of the bubbles line up...

Страница 18: ...rence points carefully Poor reference points like those on the heavily worn portion of a machine bed where all the work is performed may mean extra time to bring the machine back into tolerance In oth...

Страница 19: ...d one vertical laser plane are needed 1 Mount a target horizontally at the closest reference point to the laser and adjust the target so that it detects the laser 2 Zero the target and move it to the...

Страница 20: ...ts described in Measuring Straightness and Measuring Flatness to determine the straightness and flatness of the machine s axes measuring squareness is a simple process To truly measure squareness one...

Страница 21: ...e error from the laser not being parallel to the surface Level to Earth Measurements The leveling of machine tools surface plates and different types of bases can be performed using scanning lasers as...

Страница 22: ...ny three points on a surface may be used however Hamar Laser recommends the setup illustrated in Figure 12 Figure 12 Three Point Buck in Using One Target recommended setup When performing this procedu...

Страница 23: ...ing the Three Point Buck In 1 Center the target in the Near Position With the target in the Near Position zero the target 2 Move the target to Far Position A and tilt the laser beam until the readout...

Страница 24: ...he laser beam must be adjusted to be parallel to or coincident with an edge or centerline The process of making that adjustment is called bucking in This section describes two types of buck in methods...

Страница 25: ...resents the distance from the laser to the first target L2 repre sents the distance be tween the two targets If L1 is less than one tenth of L2 the normal buck in procedure is used If L1 is greater th...

Страница 26: ...ding is to L2 Stated mathematically the ratio is Set L1 Far L2 If L1 L2 and the far reading are known the set can then be determined by the following formula Set Far reading L1 L2 Note This is a simpl...

Страница 27: ...two targets When using normal buck in the rule is Zero Near Point Far Buck in the laser beam by zeroing it on the near target and then pointing the laser beam using the appropriate adjustment knobs t...

Страница 28: ...eck A C power source Use second A C power supply if available 5 Noisy target A 1519 1520 readings on PDA NOTE On average the user can expect 00002 in ft to 00005 in ft 0 0025 mm m 0 004 mm m of noise...

Страница 29: ...low or high on target window it should be near the window It is possible for the laser to activate the auto wake up feature of target but not enough of the beam is hitting the PSD target sensor to get...

Страница 30: ...ime Error in software Do not unplug the A 910 from the USB port while still using the program Report to HLI the exact key strokes that created the Runtime Error 12 Software crashes upon loading Ensure...

Страница 31: ...27 Appendix B Equipment Drawings L 733 Precision Geometry Laser...

Страница 32: ...28 L 743 Ultra Precision Geometry Laser...

Страница 33: ...29 The L 732 Dual Scan Precision Roll Alignment Laser...

Страница 34: ...30 The L 742 Dual Scan Ultra Precision Roll Alignment Laser...

Страница 35: ...ted This makes is very likely that the error in measurement at the point where the target is zeroed is nearly identical to the error in each subsequent measurement because the difference in sensor are...

Страница 36: ...ea is 1 micron or less Approx 4 mm of measuring area each vertical line on the graph equals 1 mm Total Error 3 3 microns 2 microns 2 microns 0 000 Each green vertical line equals 1 mm of measuring are...

Страница 37: ...the type intended for nail polish removal NOTE When cleaning precision optics even with the best quality optical cleaning tissue use gentle pressure to avoid scratching the surface or damaging the opt...

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