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ACOEM AT Series User Manual

Shaft alignment
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USER MANUAL
AT
SHAFT ALIGNMENT

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David Vernier
May 23, 2025

Can use please send me the SDS for the lithium ion battery inside the Acoem M9 and the Acoem tablet. Make sure it has the 38.3 testing noted.

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Summary of Contents for ACOEM AT Series

  • Page 1 USER MANUAL SHAFT ALIGNMENT...

  • Page 3: Table Of Contents

    CONTENT ACOEM Home - Launcher 15.1 Flir One 16.1 Welcome to our world Technical Specification 17.1 Declaration of Conformity M7 and S7 Safety Technical Specification 18.1 M10 and S10 Care Technical Specification 19.1 Apps M9 and S9 Shaft Alignment Technical Specification P1 20.1...

  • Page 5: Welcome To Our World

    Nor would we have been pioneers in the use of visible lasers and dual For 40 years, ACOEM has helped industries measurement heads. Nor would we have throughout the world to achieve more been the first to bring a wireless vibration profitable and sustainable production.
  • Page 6 TRUE COMMITMENT PURE USABILITY One reason for our success is our solid Our design and user-friendliness are carefully commitment. We have ensured that we interwoven. As we develop new products, remain attentive to constantly picking up on they also become cleaner, smarter, more the needs of the market.
  • Page 7 The user is granted a single license to use the ACOEM or its suppliers shall, to the maximum software contained in this product. Use is only extent permitted by applicable law, not be...

  • Page 9: Declaration Of Conformity

    2011/65/EU Restriction of the use of certain hazardous substances (RoHS) 2006/66/EU Battery Directive Manufacturer’s name, address, telephone 2001/95/EC CE marking directive & fax no ACOEM AB Type of equipment Box 7 SE-431 21 Mölndal Alignment Tool Sweden Tel: +46 31 7062800...
  • Page 10 The following standards and/or technical The laser is classified in accordance with the specifications, which comply with good International Standard IEC-60825-1:2014, engineering practice in safety matters in force USA FDA Standard 21 CFR, Ch 1, Part within the EEA, have been applied: 1040.10 and 1040.11 except for deviations pursuant to laser notice No.
  • Page 11 Additional information The product was CE-marked in 2023. As manufacturer, we declare under our sole responsibility that the equipment follows the provisions of the Directives stated above. Date and place of issue Mölndal 2023-05-30 Signature of authorized person Hans Svensson, Managing Director...

  • Page 13: Safety

    Do not disassemble, modify, or use the environment. equipment in other ways than explained in the operating instructions. ACOEM AB will not accept any liability for such use.
  • Page 14 LASER PRECAUTIONS The system uses laser diodes with a power output of < 1.0 mW. The laser classification is Class 2. Class 2 is considered safe for its intended use with only minor precautions required. These are: • Never stare directly into the laser CAUTION! transmitter.
  • Page 15 Your system complies with the requirements • IEC-60825-1:2007 • British Standard BS EN 60825-1 • DIN EN 60825-1 • USA FDA Standard 21 CFR, Ch 1, Part 1040.10 and 1040.11...
  • Page 16 The unit damaged. can therefore only be used with the Li-Ion Do not expose the power adapter to rain or batteries supplied by ACOEM. wet conditions. Improper replacement of batteries can cause damage and risk for personal injury.
  • Page 17 SUPPLIED BY ACOEM WILL CAUSE SEVERE DAMAGE TO Only use the external power adapters THE SENSOR AND CAN supplied by ACOEM for use with the sensors. CAUSE RISK FOR PERSONAL Using other power adapters can cause INJURY! damage to the unit and personal injury.
  • Page 18 WIRELESS TRANSCEIVER The sensors are fitted with Bluetooth wireless transceivers. Make sure that there are no restrictions on the use of radio transceivers at the site of operation before using the wireless transceivers. WARNING! Before using the wireless transceivers make sure that there are no restrictions on the use of radio transceivers at the site.

  • Page 19: Care

    CARE PACKING THE CASE Example AT-400 Ultimate Example AT-200...
  • Page 20 CLEANING Do not use paper tissue, which can scratch the detector surface. The system should be cleaned with a cotton cloth, or a cotton bud moistened with a mild soap solution, except for the detector and laser window surfaces, which should be cleaned with alcohol.
  • Page 21 DATE OF CALIBRATION DISCREPANCY Our instruments store the electronic date of the latest calibration of the instrument. Due to production processes and storage time, this date will differ from the date of the calibration certificate. Hence, it is the date of the calibration certificate which is important and that indicates when the next calibration is due.

  • Page 23: Apps

    APPS Download the apps from Google Play or App Store. The following apps can be available in the AT The Horizontal Shaft Alignment app and the system. Vertical Shaft Alignment app work with the sensors M7 & S7, M10 & S10 and Horizontal Shaft Alignment M9 &...

  • Page 25: Shaft Alignment

    SHAFT ALIGNMENT HORIZONTAL MACHINES INTRODUCTION Shaft alignment: Determine and adjust the relative position of two machines that are connected, such as a motor and a pump, so that the rotational centers of the shafts are collinear, when the machines are working in a normal operating condition.
  • Page 26 The system has two measuring units that are After rotating the shafts into different placed on each shaft by using the fixtures measuring positions, the system calculates supplied with the system. the relative distance between the two shafts in two planes. The distances between the two measuring planes, distance to the coupling and distances to the machine feet are entered into the system.
  • Page 27 Before setting up the alignment system on the PRE-ALIGNMENT FUNCTIONS machine, check the machine foundation, bolt, To obtain the best possible conditions for and shim condition. Also check if there are shaft alignment, it is necessary to perform any restrictions in adjusting the machine (if some pre-alignment checks.
  • Page 28 • Pipe work strain. • Coarse alignment. • Check coupling gap (axial alignment). The Pre-Alignment app can be used for several Pre-Alignment checks. There is also a Softcheck function in the Horizontal Shaft Alignment app.
  • Page 29 STARTING SENSOR DEPENDENT FUNCTIONS Turn on the sensors. Some functions work only with the sensors M10 & S10 and/or M9 & S9. These functions Turn on the tablet. are marked with a sensor 10 and/or sensor 9 symbol. Start the Horizontal Shaft Alignment app.
  • Page 30 Lift the open end of the chain, tension it so MOUNTING that the slack is removed and attach it to the The sensor marked “M” should be mounted hook. on the movable machine and the sensor marked “S” on the stationary machine. The sensors shall be assembled on their V- bracket and placed front to front on each side of the coupling.
  • Page 31 Firmly tighten the chain with the tensioning Adjust height M7 & S7 / M10 & S10 screw. Use the supplied tensioning tool. Do Adjust the height of the sensor by sliding it on not overtighten. If the shaft diameter is too the posts until a line of sight is obtained for large the chains can be extended with both lasers.
  • Page 32 Adjust height M9 & S9 Adjust the height of the sensor by sliding it on the posts until a line of sight is obtained for both lasers. Secure its position with the green knobs.
  • Page 33 Select to enter distances and tolerances or MACHINE CONFIGURATION select a pre-defined machine or work order The screen displays the movable machine. from the machine list. The traffic lights show green when the laser Touch the distance icon, to hits the detector. enter distances and tolerance.
  • Page 34 Measure and enter distances Enter tolerances Alignment tolerances depend to a large extent on the rotation speed of the shafts. Machine alignment should be carried out within the manufacturer’s tolerances. The provided table can be helpful if no tolerances are specified. It is also possible to enter customized tolerances.
  • Page 35 Tolerance Table inch-mode Editing mode for customized tolerances Select the tolerance to use in the alignment by touching its check box to the left. Confirm. Touch the edit icon to enter and edit customized tolerances. 6.11...
  • Page 36 The machine list shows pre-defined machines and work orders. Work orders require connection to the ACOEM Augmented Mechanics Platform. (See Settings and Cloud Synchronization at the end of this chapter.) It is possible to order the machine list depending on each column’s status by touching the column header.
  • Page 37 Pre-defined machines Other options in the expanded view. Pre-defined machines can be created in the PDF report. configuration screen. A pre-defined machine is shown with a Delete the machine. machine symbol, machine name and creation date. Upload to cloud. Touch a machine to expand the view and show more details.
  • Page 38 Work orders Other options in the expanded view. A work order is shown with a work order PDF report. status symbol, machine name and due date. Touch a work order to expand the view and Delete the work order. show more details. Close the work order.
  • Page 39 Work order status Cloud sync status Work order to realize, Waiting to be synced. not started. Work order soon overdue Synced. (<1 week). Work order closed. Not connected to cloud. Work order overdue. 6.15...
  • Page 40 Target Values CONFIGURATION SCREEN Opens Target Values. Add New Machine Adds the pre-defined machine to the machine list. Machine List Distances Opens the machine list. Opens window for entering distance. Restart Tolerance table Deletes all entered data Opens the tolerance and restarts the app.
  • Page 41 Coupling Hot Check Select coupling type. Opens Hot Check. Standard coupling, spacer shaft or cardan shaft and coupling gap on/off. Confirm Motor Confirms the machine Select motor color. configuration. Grey, blue, green, yellow, or red. Stationary machine Select stationary machine type. Alternator, blower, centrifugal compressor, fan, gear box, lobe...
  • Page 42 Place the sensors at the 12 o’clock position. SOFTCHECK™ Go to Softcheck for checking soft foot conditions. A soft foot condition needs to be corrected before any alignment takes place. If not, the measurement result will be of no value. It is more or less impossible to establish if there is a soft foot condition without using some kind of measurement tool.
  • Page 43 Measurement value registration Touch the confirmation icon. The application will guide you to thefeet. The first foot. Repeat the procedure at the rest of the feet. Loosen the bolt fully and wait a few seconds. Tighten the bolt firmly, preferably with a torque wrench.
  • Page 44 Measurement result and Corrections Re-measure all feet. Re-measure a single foot. The Softcheck result can be saved separately. Touch the save icon to save the result. Make the necessary corrections and then (The measurement is saved in check each foot again (the values show the app and can be handled approximately how many shims that are further by generating a PDF...
  • Page 45 You can pre-set target values before starting TARGET VALUES your alignment work. Accepted values are Go to Target Values to enter target feet values and angle and offset values. values. The entered values are target values. Target (Target Values are reached from values mean that these are the values at the configuration screen.) which the machine should be positioned when...
  • Page 46 Feet values In the example above, the stationary machine will shrink vertically by 0.12 mm at the rear Touch the feet value boxes. Enter target feet and 0.09 mm at front feet while the values for the feet in mm or mils according to movable machine will expand 0.04 mm while the pre-set measurement unit together with running.
  • Page 47 Angle and offset values Touch the value boxes and enter target values for the angles in mm/100 mm and target values for the offsets in mm, or mils/inch and mils, according to the pre-set After having entered these feet values, the measurement unit.
  • Page 48 In the example above, the movable machine should be vertically adjusted to a position with an angular misalignment of +0.05 mm/100 mm and an offset of -0.06 mm. Horizontally, the movable machine should be positioned with a +0.02 mm/100 mm angular misalignment and a +0.03 mm offset, in cold condition to obtain perfect alignment while running.
  • Page 49 Express Mode™ method MEASUREMENT METHODS Tripoint™ method The Express Mode method works as the Tripoint method with the following additions. In the Tripoint method, the alignment The first position can be registered condition can be calculated by taking three automatically, if the shafts first are rotated points while rotating the shaft at least 60°.
  • Page 50 Multipoint method Multipoint express method In the Multipoint method, the alignment The Multipoint express method works as the condition can be calculated by recording 6 to Multipoint method with the following additions. 9 points while rotating the shafts at least 50°. The first position can be registered NOTE: The shafts should be coupled during automatically, if the shafts first are rotated...
  • Page 51 Sweep mode method Sweep mode express method In the Sweep mode method, the alignment The Sweep mode express method works as condition can be calculated by recording the Sweep mode method with the following measurement data automatically while additions. rotating the shafts at least 90° at a moderate After performing the rotation of the shafts and speed.
  • Page 52 Clock method In the Clock method, machinery positions are calculated by taking three points with 180° of rotation. The Clock method is useful when comparing the measurement results with traditional alignment methods using dial gauges and reversed rim method. The method can also be used when the machines are standing on non-horizontal foundations or when the shafts are not coupled.
  • Page 53 Tripoint™ method MEASUREMENT POINT REGISTRATION Go to measurement. Set the sensors at approximately the same rotational angle at the first measurement position. Touch the measurement icon, to register the first position. Select measurement method. 6.29...
  • Page 54 Rotate the shafts to the next position. The Rotate the shafts to the third position. shafts must be rotated over a minimum of 30°. Red sector shows already measured zone. The Register icon is not shown if the rotation is less than 30°. Touch the measurement icon, to register the third position.
  • Page 55 Express Mode™ method The first position can be registered automatically, if the shafts first are rotated counterclockwise more than 3° between 6 o’clock and 12 o’clock and then clockwise more than 3°. The reading is then taken automatically when the sensors have been stationary for 2 seconds.
  • Page 56 Rotate the shafts to the next position. The Rotate the shafts to the third position. shafts must be rotated over a minimum of 30°. Red sector shows already measured zone. The reading is taken automatically when the sensors have been stationary for 2 seconds. The reading is taken automatically when the TIP: When registering the third position at the 3 o’clock position, the sensors will already be...
  • Page 57 Multipoint method Rotate the shafts to the next position. The shafts must be rotated over a minimum of 10°. Red sector shows already measured zone. The Register icon is not shown if the rotation is less than 10°. Set the sensors at approximately the same rotational angle at the first measurement position.
  • Page 58 Continue to measure. Between 6 and 9 positions can be measured. Finish measurement. 6.34...
  • Page 59 Sweep mode method A pop-up indicating to rotate the shafts to start the measurement data collection is displayed. Once the shafts are rotated the data collection Set the sensors at approximately the same will start and an animation will begin showing rotational angle at the position where you the optimum speed to rotate the shafts.
  • Page 60 If sufficient measurement data has not been collected, an error message will show up. Finish measurement. The error message shows if the rotation angle was too short or if the shafts were rotated too fast, or both. (In the example above, the rotation angle was too short.) 6.36...
  • Page 61 Clock method Rotate the shafts to the next position, 12 o’clock. Touch the measurement icon, Set the sensors at approximately the same to register the second position. rotational angle at the first measurement position, 9 o’clock. Touch the measurement icon, to register the first position.
  • Page 62 Rotate the shafts to the third position, 3 Clock method with disabled inclinometers o’clock. If the inclinometers are not functioning properly, e.g., in high vibrations, they can be disabled. Go to settings to disable inclinometers. Touch the measurement icon, to register the third position. 6.38...
  • Page 63 Within tolerance MEASUREMENT RESULTS (green). Within double tolerance (yellow and inverted). Out of double tolerance (red and inverted). When a coupling is in tolerance in one direction, this is indicated with a check The Measurement Result screen shows symbol at the motor. coupling values and foot values in both the vertical and horizontal direction.
  • Page 64 Touch the save icon to save EVALUATING AND SAVING the result. THE RESULT (The measurement is saved in The angle and offset values are used to the app and can be handled determine the alignment quality. These values further by generating a PDF are compared with the alignment tolerances report.) to determine whether correction is necessary.
  • Page 65 VERTIZONTAL™ Align faster with the VertiZontal Moves feature. First correct the vertical misalignment in the shimming screen. The system shows how much you need to remove or add shims to correct the machine vertically. Next correct the horizontal misalignment in the alignment screen.
  • Page 66 SHIMMING Go to alignment. The Shimming screen shows foot values in the vertical direction as suitable shim values (0.05 mm / 1 mil). The arrows show if shims must be added or removed to adjust the machine in the vertical direction.
  • Page 67 Horizontal direction ALIGNMENT If the machine has been adjusted vertically in the shimming screen, only the horizontal direction remains to align. If the machine has not been adjusted in the shimming screen, alignment in the vertical direction must be done first. Rotate the shafts to the 3 or 9 o’clock position, if they are not already positioned there.
  • Page 68 Alignment is now completed. To confirm the result, re-do the measurement. Re-measure. Tighten the bolts using the tightening sequence, as below. 6.44...
  • Page 69 Vertical direction Clock method with disabled inclinometers To check or align in the vertical direction, If the inclinometers are not functioning rotate the shafts to the 12 or 6 o’clock properly, e.g., in high vibrations, they can be position. The angle guide helps you to reach disabled.
  • Page 70 Touch the 2-axis alignment 2-AXIS ALIGNMENT icon to go to the 2-axis alignment screen. The 2-axis alignment function makes it possible to perform adjustments of the movable machine both in vertical and horizontal direction without further rotations of the shafts. The 2-axis alignment function is usable when the shaft has limited or no possibility to control the positioning of the shafts during rotation.
  • Page 71 Note: If the sensors are closer to the 12 or 6 o’clock positions backlash can affect the horizontal values and if the sensors are closer to the 3 or 9 o’clock positions backlash can affect the vertical values. 6.47...
  • Page 72 Enter dimensions. The required distances are FEET LOCK FUNCTION those between the first and second pairs of In some cases, the machine that is displayed feet on the stationary machine and between as the movable machine is not movable, or the first pair of feet on the stationary machine maybe some of the feet are not adjustable.
  • Page 73 Feet Lock Shimming Feet Lock Alignment Shim values are shown for the two pairs of Live values are shown for the two pairs of feet feet that are not locked. that are not locked. 6.49...
  • Page 74 MULTIPLE FEET Some machines have more than two pairs of feet. To perform proper alignment in these cases, the Multiple Feet function can be used. This function allows you to select 3, 4 or 5 pairs of feet. Multiple Feet is available both in shimming and alignment.
  • Page 75 Multiple Feet Shimming Multiple Feet Alignment Shim values are shown for the selected pairs Live values are shown for the selected pairs of feet. of feet. 6.51...
  • Page 76 SCREEN FLIP Screen Flip enables the user to see the machine set-up from the actual view. Touch the Screen Flip icon to change view. 6.52...
  • Page 77 COUPLING GAP Configuration Go to the configuration screen. Select coupling type. The coupling diameter can also be entered as circumference. Enter circumference. Activate coupling gap. Enter coupling diameter. 6.53...
  • Page 78 Measurement results The angular error is shown per coupling diameter. When coupling gap is activated, the coupling diameter is editable in the result screen. 6.54...
  • Page 79 SPACER SHAFT The spacer shaft function is used when the alignment is performed on machinery using a membrane coupling. The membrane coupling is a typical high-performance coupling, with no backlash, used for maintenance free operation. It is also suitable for high speeds or high temperature applications.
  • Page 80 Depending upon the alignment condition, there can be differences in angle between the two flexible elements. The pictures below show different examples of how the angles in the flexible elements can be. 6.56...
  • Page 81 Configuration You must enter all the distances. The distance between the sensors, the “spacer Go to the configuration screen. shaft length”, the distance between the “end of the spacer shaft” and the M-sensor, the distance between the M-sensor and the first pair of feet and the distance between the first Select coupling type.
  • Page 82 Measurement point registration Measurement results See selected measurement method, the Tripoint method, the Express Mode method or the Clock method. Generally, the measurement procedure for spacer shaft works in the same way as for standard coupling, except for the two angular values.
  • Page 83 Evaluating and saving the result Shimming The angle values are used to determine the See shimming for standard coupling. alignment quality. These values are compared with the alignment tolerance to determine whether correction is necessary. If suitable tolerance is selected in the tolerance table, the symbols described above indicate if the angle values are within tolerance or not.
  • Page 84 Alignment If the machine has been adjusted vertically in the shimming screen, only the horizontal direction remains to align. If the machine has not been adjusted in the shimming screen, alignment in the vertical direction must be done first. Alignment is now completed. To confirm the result, re-do the measurement.
  • Page 85 The Offset laser fixture is adjustable in a CARDAN SHAFT plane parallel to the stationary machine’s flange face and can be set at any position to Introduction eliminate the offset from the driven unit. The The most common set-up for offset machines dummy rotational center on the fixture is set in is the Z-configuration, where the drive shaft front of the driven unit and any angular...
  • Page 86 Alignment of offset machines with the AT Pre-Alignment system involves the following: The machined parts of the Offset fixture allow • the dummy axis to be set parallel with a Pre-alignment. tolerance of better than 0.2 mm per meter. • Mounting the fixtures to eliminate the However, if the flange face is deformed, not offset between the rotational centers.
  • Page 87 • Mounting (Stationary) Check the run-out on the flange faces, using a dial indicator. The Offset fixture comes with several • methods of attachment. The system is Lock the shaft of the stationary machine designed so that you can utilize the coupling before mounting the fixture on the flange.
  • Page 88 the hardened washers, and that the arm is properly fastened on the flange. Mount the 2nd arm with the turret onto the 1st arm, using the M10 bolt and guide washer. By slightly tightening the arm, it is possible to adjust its position roughly in front of the movable unit.
  • Page 89 Mounting alternatives (Stationary) In applications where the flange can be rotated, where access is limited, or where you cannot use the “2-arm set-up”, it is possible to mount just one arm on the flange. • Mount the arm on the flange and rotate the flange to a position where the "dummy axis"...
  • Page 90 For applications with a small offset, you Mounting (Movable) sometimes must mount the turret close to the To attach the turret on the movable machine, center and in between the fastening bolts on the kit is provided with a selection of threaded one arm.
  • Page 91 Mounting alternatives (Movable) If the shaft cannot be rotated, an extra arm can be mounted in front of the flange. The If no thread is present in the shaft center of threaded hole in the center of the arm should the movable machine, the M-sensor can be be positioned near the center of the shaft.
  • Page 92 Coarse alignment The purpose of coarse alignment is to align the machines roughly by using the built-in lasers. The built-in lasers in each turret are pre- adjusted so that the laser beam represents the axis of rotation for the unit it is mounted Turn on the built-in laser in the turret on Rotate the turret on the stationary side the stationary side, by rotating the laser...
  • Page 93 Turn off the laser in the turret on the Aim the laser onto a target (a piece of stationary side. paper or cardboard). Make a mark where the laser beam hits. Turn on the laser in the turret on the movable machine.
  • Page 94 When using this procedure on the 10. Make a 3rd mark on the target at half the stationary side, only the turret shall be distance between the 1st and 2nd mark. rotated 180˚. The laser spot should now have moved on the surface, in a pattern of a half circle.
  • Page 95 11. Adjust the position of the laser beam until it is hitting the 3rd marking on the target, using the two adjustment screws on the front on the turret. Make sure not to rotate the turret during the adjustment of the laser. 12.
  • Page 96 Configuration The distance between the sensors, and the distance between the first and the second pair Go to the configuration screen. of feet are the only distances that need to be entered. Select coupling type. Activate cardan shaft. Measure and enter distances. 6.72...
  • Page 97 Measurement point registration Rotate the shafts to the next position, 12 o’clock. Set the sensors at approximately the same rotational angle at the first measurement Touch the measurement icon, position, 9 o’clock. to register the second position. Touch the measurement icon, to register the first position.
  • Page 98 Rotate the shafts to the third position, 3 Measurement results o’clock. The Measurement Result screen shows Touch the measurement icon, coupling values and foot values in both the to register the third position. vertical and horizontal direction. The symbol to the left or right of the coupling values indicates the angular direction, and if the values are within tolerance.
  • Page 99 Evaluating and saving the result Shimming The angle values are used to determine the See shimming for standard coupling. alignment quality. These values are compared with the alignment tolerance to determine whether correction is necessary. If suitable tolerance is selected in the tolerance table, the symbols described above indicate if the angle values are within tolerance or not.
  • Page 100 Alignment Alignment is now completed. To confirm the result, re-do the measurement. If the machine has been adjusted vertically in the shimming screen, only the horizontal Re-measure. direction remains to align. If the machine has not been adjusted in the shimming screen, alignment in the vertical direction must be done first.
  • Page 101 Stationary machine MOTOR & STATIONARY MACHINE Select stationary machine type. Motor color and stationary machine type can be selected in the configuration screen. Motor Select motor color. Select undefined machine, centrifugal compressor, alternator, lobe compressor, blower, fan, gear box or pump. Select grey, blue, green, yellow, or red.
  • Page 102 Measure Hot condition HOT CHECK Shut off the machine. Hot Check is a simplified way to get Target Do a Horizontal Shaft Alignment Values. measurement, just after the machine has The Hot Check is performed by doing a been shut off. measurement just after the machine has been Save this measurement as “…Hot…”.
  • Page 103 Perform a Hot Check Go to Hot Check. Pick up a saved measurement in cold condition. (Hot Check is reached from the configuration screen.) Select the cold measurement to use in the list and confirm. Pick up a saved measurement in hot condition.
  • Page 104 The screen shows coupling values from the The screen shows the target values. picked-up measurements in cold and hot conditions. Calculate Target Values. 6.80...
  • Page 105 SENSOR DISPLAY When using the M9 and S9 sensors a Sensor Display is available in the start screen. Open Sensor Display. Raw sensor values (Y, X and rotational angle) are shown, together with an illustration of each sensor where a red dot is showing the laser hit at the detector.
  • Page 106 Enter data PDF REPORT Touch the white field at the top to enter a A PDF report with several measurements can header for the PDF report. be generated. Touch the white fields to enter date, site, Touch the PDF icon to create machine, user and note.
  • Page 107 View a file Touch the eye to view a file. PDF-report list Touch the PDF list icon to view existing PDF-reports. IR Pictures Touch the IR Picture icon to import IR pictures. Customized logo Touch the logo up to the right to change it. Add your logo as a PNG or JPG file.
  • Page 108 • OTHER FEATURES The mutual angular position changes more than 0.7° from that when the first Looseness indicator measurement point was taken. When the coupling backlash or looseness is eliminated to avoid any of the above conditions, the looseness indicator will automatically disappear.
  • Page 109 Flir One app. User Log in PDF report Touch the User icon to log in Touch the PDF icon to create to the ACOEM Augmented a PDF report. Mechanics Platform. Info Privacy policy Touch the Info icon to go to...
  • Page 110 Intelligent screen filter and sampling time Measurement unit Activate or deactivate Select mm or inch. intelligent screen filter with increased sampling time. Note: The intelligent Best resolution screen filter should be deactivated for normal Select 0.001 mm 0.001 operation, and only or 0.01 mils.
  • Page 111 Bluetooth settings When entering settings, the system starts searching for pair able sensors. Only ACOEM sensors that are switched on, will be discovered. Paired units are marked with a check mark. If there are units paired to the app, they must be unpaired before it is possible to pair new units.
  • Page 112 Search Starts searching for pairable sensors. Cancel search Stops searching for pairable sensors. Confirm Exits the Settings and returns to the application. 6.88...
  • Page 113 To do so, it is possible to authenticate from the app settings. Click on the User icon and fill in your login Confirm. and password that were provided at the creation of your account on the ACOEM Augmented Mechanics Platform Log out. (ai.acoem.com). 6.89...
  • Page 114 Upload a machine Download available work orders Machines that are created in the configuration From the machine list, touching the cloud screen can be uploaded to the cloud. synchronization icon will automatically download all work orders assigned to the user To do so, from the machine list, display the logged in to the app.
  • Page 115 Completing a work order Once a job is performed, the work order must be closed by the user prior to the upload to the cloud. Once the work order is closed, its status is automatically updated in the machine list. It means that the machine results and report are ready to be uploaded to the cloud and shared with other users.
  • Page 116 6.92...

  • Page 117: Shaft Alignment

    SHAFT ALIGNMENT VERTICAL MACHINES INTRODUCTION Shaft alignment: Determine and adjust the relative position of two machines that are connected, such as a motor and a pump, so that the rotational centers of the shafts are collinear, when the machines are working at a normal operating temperature.
  • Page 118 The system has two measuring units that are After rotating the shafts to different measuring placed on each shaft by using the fixtures positions, the system calculates the relative supplied with the system. distance between the two shafts in two planes.
  • Page 119 Before setting up the alignment system on the PRE-ALIGNMENT FUNCTIONS machine, check the machine foundation, bolt, To obtain the best possible conditions for and shim conditions. Also check if there are shaft alignment, it is necessary to perform any restrictions in adjusting the machine (if some pre-alignment checks.
  • Page 120 • Pipe work strain. • Coarse alignment. • Check coupling gap (axial alignment). The Pre-Alignment app can be used for several Pre-Alignment checks.
  • Page 121 STARTING SENSOR DEPENDENT FUNCTIONS Turn on the sensors. Some functions work only with the sensors M10 & S10 and/or M9 & S9. These functions Turn on the tablet. are marked with a sensor 10 and/or sensor 9 symbol. Start the Vertical Shaft Alignment app.
  • Page 122 Measure and enter distances MACHINE CONFIGURATION The screen displays the movable machine. You must enter all the distances. The The traffic lights show green when the laser distance between the sensors, the distance hits the detector. between the center of the coupling and the M- Touch the distance icon.
  • Page 123 Enter tolerances Alignment tolerances depend to a large extent on the rotation speed of the shafts. Machine alignment should be carried out within the manufacturer’s tolerances. The provided table can be helpful if no tolerances are specified. It is also possible to enter customized tolerances.
  • Page 124 Editing mode for customized tolerances...
  • Page 125 Tripoint™ method MEASUREMENT METHODS Clock method In the Tripoint method, the alignment condition can be calculated by taking three In the Clock method, machinery positions are points while rotating the shaft at least 60°. calculated by taking three points with 180° of rotation.
  • Page 126 Express Mode™ method In the Express Mode method, the alignment condition can be calculated by recording three points while rotating the shafts at least 60°. After recording the 1st point, the other points are taken automatically when the shafts are rotated to a new position and are kept in position for more than 2 seconds.
  • Page 127 MEASUREMENT POINT Clock method REGISTRATION Go to measurement. Place yourself at the position corresponding to the second measurement position, where it is easiest to turn the shafts through 180°. Select measurement method. The first measurement position must be at bolt number 1. Tip: Mark the positions 1, 2 and 3 before you start measuring.
  • Page 128 Rotate the shafts 90° to the second position (where you are standing). Set the sensors at approximately the same rotational angle at the first measurement position, with bolt number 1 to the right. Touch the register icon to Touch the register icon to register the first position.
  • Page 129 Rotate the shafts 90° to the third position, to Tripoint™ method the left. Before starting the measurement, you must select a bolt to be bolt number 1. The first measurement position must be at bolt number 1. Touch the register icon to register the third position.
  • Page 130 Rotate the shafts to the next position. The Rotate the shafts to the third position. shafts must be rotated over a minimum of 30°. Red sector shows already measured zone. The Register icon is not shown if the rotation is less than 30°. Touch the measurement icon, to register the third position.
  • Page 131 Express Mode™ method Touch the register icon to start the measurement point registration and register the first position. Before starting the measurement, you must select a bolt to be bolt number 1. The first position can be registered automatically, if the shafts first are rotated The first measurement position must be at counterclockwise more than 3°...
  • Page 132 Rotate the shafts to the next position. The Rotate the shafts to the third position. shafts must be rotated over a minimum of 30°. Red sector shows already measured zone. The reading is taken automatically when the sensors have been stationary for 2 seconds. The reading is taken automatically when the sensors have been stationary for 2 seconds.
  • Page 133 MEASUREMENT RESULTS Within tolerance (green). Within double tolerance (yellow and inverted). Out of double tolerance (red and inverted). When a coupling is in tolerance in one direction, this is The Measurement Result screen shows indicated with a check symbol coupling values in both directions, and bolt at the motor.
  • Page 134 Touch the save icon to save EVALUATING AND SAVING the result. THE RESULT (The measurement is saved in The angle and offset values are used to the app and can be handled determine the alignment quality. These values further by generating a PDF are compared with the alignment tolerances report.) to determine whether correction is necessary.
  • Page 135 When shimming is completed, continue to SHIMMING alignment for adjustments of parallel offset. Go to alignment. The Shimming screen shows bolt values as suitable shim values (0.05 mm / 1 mil). Adjust the angular error by placing shims under the bolts as required. The arrow shows if shims must be added to adjust the machine.
  • Page 136 Check that both the angular value and the ALIGNMENT parallel offset are within the required tolerances once the adjustments are completed. Alignment is now complete. To confirm the result, re-do the measurement. Re-measure. If the angular error has been correctly adjusted in the shimming screen the angular value should now be in tolerance.
  • Page 137 PDF REPORT Enter data Touch the white field at the top to enter a A PDF report with several measurements can header for the PDF report. be generated. Touch the white fields to enter date, site, Touch the PDF icon to create machine, user and note.
  • Page 138 View a file Touch the eye to view a file. PDF-report list Touch the PDF list icon to view existing PDF-reports. 7.22...
  • Page 139 PDF report SETTINGS Touch the PDF icon to create a PDF report. Measurement unit Select mm or inch. Best resolution Info Select 0.001 mm 0.001 Touch the Info icon to go to or 0.01 mils. the website for downloading user manual. Privacy policy Photo Touch the Privacy Policy icon...
  • Page 140 Bluetooth settings See Shaft Alignment Horizontal Machines. 7.24...

  • Page 141: Pre-Alignment

    STARTING Turn on the sensors. Turn on the tablet. PRE-ALIGNMENT Start the Pre-Alignment app. The Pre-Alignment app works with the Run- Out probe P1, and the sensors M7 & S7, M10 & S10 and M9 & S9. Go to settings for connecting the sensors if they are not already connected.
  • Page 142 Sensor Display HOME MENU Max Min ROP Sensor Log Settings Run-Out PDF report Bearing Clearance Run-Out, Bearing Clearance, Softcheck ROP, Sensor Display and Max Min ROP work with the Run-Out probe P1. Softcheck ROP Sensor Display and Sensor Log work with the sensors M7 &...
  • Page 143 RUN-OUT Start Run-Out. Place the Run-Out Probe on the measurement object. Select a position to measure.
  • Page 144 Rotate the shaft >360º. Make sure that the Run-Out Probe is at a suitable part of the measuring range before starting the measurement. Start measuring run-out.
  • Page 145 Confirm the measurement. Shaft Start measuring run-out. Rotate the shaft >360º. Confirm the measurement.
  • Page 146 Face Result Start measuring run-out. Touch the save icon to save the result. Rotate the shaft >360º. (The measurement is saved in the app and can be handled Confirm the measurement. further by generating a PDF report.)
  • Page 147 BEARING CLEARANCE Start Bearing Clearance. Place the Run-Out Probe on the measurement object. Select a position to measure.
  • Page 148 Make sure that the Run-Out Probe is at a Lift the shaft. suitable part of the measuring range before starting the measurement. Start measuring bearing clearance.
  • Page 149 Confirm the measurement. Result Touch the save icon to save the result. (The measurement is saved in the app and can be handled further by generating a PDF report.)
  • Page 150 A soft foot condition needs to be corrected SOFTCHECK ROP before any alignment takes place. If not, the Start Softcheck ROP. measurement result will be of no value. It is more or less impossible to establish if there is a soft foot condition without using some kind of measurement tool.
  • Page 151 Measurement value registration The program will guide you to the feet. The first foot. Loosen the bolt fully and wait a few seconds. Tighten the bolt firmly, preferably with a dynamometric wrench. Place the Run-Out Probe at the first foot. Register the measurement value.
  • Page 152 Repeat the procedure at the rest of the feet. The second foot. The fourth foot. The third foot. 8.12...
  • Page 153 Measurement result Corrections Make the necessary corrections and then check each foot again (the values show approximately how many shims that are needed to eliminate the soft foot). Re-measurements can be done by touching the re-measure icon to re-measure all feet, or by touching a single foot to re-measure just that foot.
  • Page 154 Make sure that the Run-Out Probe is at a SENSOR DISPLAY ROP suitable part of the measuring range before Start Sensor Display. zeroing. The Sensor Display for the Run-Out Probe can be used for different applications where you want to use the readings from the linear sensor in various ways.
  • Page 155 Zero values Register values Zero values. Register values. After zeroing values, they can also be halved. Registered values will be added to the list. It is also possible to return to raw values. Go to list. Halve values. Return to raw values. 8.15...
  • Page 156 P|P, P-P and P+P List The values from the second pen (to the right) can either be displayed separately or relative to the first pen (to the left), either P-P or P+P. Save the list. Return to Sensor Display. 8.16...
  • Page 157 MAX MIN ROP Start Max Min ROP. Max Min ROP for the Run-Out Probe can be used for several applications where the user wants to measure the displacement of an object to a rotational center. When entering Max Min ROP, raw data from Measuring values from the Run-Out Probe the connected Run-Out Probes are displayed.
  • Page 158 Go to the list. When max min is measured the difference during the measurement is displayed. The max and min values are also displayed. The displayed measurement result can be registered and added to the list. Register the measurement. Touch the save icon to save the list.
  • Page 159 SENSOR DISPLAY TD Start Sensor Display. On the Sensor Display for TD-units, the values from the connected sensors are displayed. Values can be zeroed, halved, When entering Sensor Display TD, raw data registered, and stored in a list that can be from the connected sensors are displayed.
  • Page 160 Zero values Register values Zero values. Register values. After zeroing values, they can also be halved. Registered values will be added to the list. Halve values. Go to list. 8.20...
  • Page 161 If needed, it is possible to return to raw List values. Return to raw values. Save the list. Return to Sensor Display. 8.21...
  • Page 162 Record values SENSOR LOG TD Start Sensor Log TD. On the Sensor Log for TD-units, the values from the connected sensors can be recorded to file. When entering Sensor Log TD, raw data from the connected sensors are displayed. Create a file for storing values. Zero values, if needed.
  • Page 163 Record single values. Pause continuous recording. Start continuous recording. Recording can be paused and started several times and all the recorded values will be stored in the same file. When continuous recording is started values Recorded values will be added to the list and will be recorded according to the selected can be seen there until finish recording.
  • Page 164 Finish recording to a file. List The recorded values are stored in a text file with a time stamp for each recording. Return to Sensor Log. 8.24...
  • Page 165 Customized logo PDF REPORT Touch the logo up to the right to change it. A PDF report with several measurements can be generated. Generate and save the PDF report Touch the PDF icon to create Touch the save icon to a PDF report.
  • Page 166 PDF report SETTINGS Touch the PDF icon to create a PDF report. Measurement unit Select mm or inch. Sampling time Info Touch the white box to enter sampling time. Touch the Info icon to go to website for downloading user manual.
  • Page 167 When entering settings, the system starts to go to website for searching for pair able sensors. information about privacy Only ACOEM sensors that are switched on, policy. will be discovered. Pair able sensors will appear in the list. Select the sensors to pair.
  • Page 168 Search Starts searching for pairable sensors. Cancel search Stops searching for pairable sensors. Paired units are marked with a check mark. Confirm Exits the Settings and returns to the application. If there are units paired to the app, they must be unpaired before it is possible to pair new units.

  • Page 169: Flatness Measurement

    STARTING Turn on the sensor and the laser transmitter. Turn on the tablet. FLATNESS MEASUREMENT Flatness app. INTRODUCTION In the Flatness Measurement app, a laser plane is used as a reference. The deviation in distance between the laser plane and the Go to settings for connecting the sensor if it is measurement object is measured in one or not already connected.
  • Page 170 MOUNTING Mount the sensor to the magnetic base, as in picture. Note: Make sure that the sensor is locked in its position.
  • Page 171 CONFIGURATION Up to 15 x 10 points can be measured. Select an existing measurement object from Number of points is selected by entering the flatness measurement list or select to distances between them, starting from point enter distances and tolerances for a new measurement object.
  • Page 172 Flatness measurement list Enter distances Opens the flatness Measure and enter distances between measurement list. measurements points. Opens window for entering distances. Saved configurations and measurements are available in the flatness measurement list. The selected area is marked green. Select a measurement object Tolerance and confirm to open it.
  • Page 173 Confirm configuration The last distance in the row or column can be deleted if there are no measured points Confirms the configuration and beyond them. continues to summary screen. Touch the delete icon to remove a distance. Save configuration Restart The configuration can be saved separately, to Deletes all entered data and be opened up later.
  • Page 174 Move the sensor to a third point on the COARSE ADJUSTMENT measurement object in a direction Three reference points perpendicular to the other two points far from the transmitter. Adjust the angle of Position the laser transmitter at one end the laser beam, with the second of the measurement object, on the object adjustment screw, until it hits the centre...
  • Page 175 One reference point – Levelling To check how a surface is positioned to level, it is necessary to set the laser plane in level. This is done by zeroing the levels with the micrometer screws.
  • Page 176 The measurement point registration is done in MEASUREMENT the measurement point screen. Summary screen Touch and release a point to open the measurement point screen. The summary screen shows all the measurement points.
  • Page 177 Measurement point registration Place the sensor on the point to be measured. Make sure that the laser beam hits the target. Live values are indicated with a green vertical line beside the values. Touch the measurement icon to measure the point.
  • Page 178 The color indicates the status of the Y value in relation to the selected tolerance. Within tolerance. Positive value within double tolerance. Negative value within double tolerance. When a measurement point is registered, Positive value out of double fixed values are indicated without a green tolerance.
  • Page 179 Note Remeasure a point A note with up to 20 characters can be Touch the remeasure icon. entered at each point. Opens window for entering a note. Delete a point Touch the delete icon. Neighbor points It is possible to navigate to neighbor points in the measurement point screen.
  • Page 180 Reference points for negative values only REFERENCES When selecting negative values only, suitable There are different ways to select references. reference points are automatically selected. Can be selected in the the summary screen. Manually selected reference points Use only after points have been measured. One or three points can be selected in the Select references for negative measurement point screen.
  • Page 181 is measured, a point is removed or if a distance is changed. The best fit reference plane will however not be recalculated if a measurement point is aligned. Enable the best fit function. Update best fit calculations. Disable the best fit function. 9.13...
  • Page 182 Within tolerance. MEASUREMENT RESULT Summary screen Positive value within double tolerance. Negative value within double tolerance. Positive value out of double tolerance. Negative value out of double tolerance. Unmeasured point. The symbols indicate the status of the measured points. Reference point. Inactive reference point.
  • Page 183 Tolerance, maximum and minimum values Save measurement and the difference between the maximum The measurement can be saved anytime and values are also shown. be opened later. Measurement values for each point can be Touch the save icon to save seen in the measurement point screen or in the measurement.
  • Page 184 List screen The list screen shows all the measurement points in a list with distances, measurement values and notes if any. The list is scrollable. Return to the summary screen. 9.16...
  • Page 185 3D screen The 3D screen can be shown as separate staples at each point or as a continuous surface. Show 3D screen with staples. Show 3D screen with a continuous surface. 3D screen with a continuous surface. Available when all points are measured. Save a screen shot of the 3D screen.
  • Page 186 Evaluating the result The result is presented in relation to the selected references. Y values show the deviation from the references, positive values mean that the measurement object at this point is higher than the reference plane and negative values that the measurement object is lower than the reference plane.
  • Page 187 ALIGNMENT Select the point to be aligned in the measurement point screen. Touch the alignment icon. Place the receiver on the point. Make sure Note: Make sure that the receiver is placed in that the laser beam hits the target. the correct position on the right point before confirming to go to live adjustment.
  • Page 188 Note: Depending on your measurement object, alignment at one point might affect other measurement points. It is therefore recommended to remeasure all points when adjustments are made. The actual Y value for the selected point goes live and alignment can be made. Adjust vertically until the Y value is within tolerance.
  • Page 189 SENSOR DISPLAY Sensor Display is reached from the summary screen. Starts Sensor Display. Raw sensor values (Y, X and rotational angle) are shown, together with an illustration of the sensor where a red dot is showing the laser hit at the detector. 9.21...
  • Page 190 PDF report SETTINGS Touch the PDF icon to create a PDF report. Measurement unit Select mm or inch. Best resolution Info Select 0.001 mm 0.001 or 0.01 mils. Touch the Info icon to go to website for downloading user manual. Sampling time Photo Touch the white box to...
  • Page 191 When entering settings, the system starts to go to website for searching for pair able sensors. information about privacy Only ACOEM sensors that are switched on policy. will be discovered. Pair able sensors will appear in the list. Select the sensor to pair.
  • Page 192 Search Starts searching for pairable sensors. Cancel search Stops searching for pairable sensors. Paired unit is marked with a check mark. Confirm Exits the Settings and returns to the application. If there is a unit paired to the app, it must be unpaired before it is possible to pair a new unit.

  • Page 193: Sensors M7 And S7

    SENSORS M7 AND S7 Sensors with 1-axis detector, inclinometer and laser transmitter. ON/OFF button with status indication Continuously green – On Switching green/red – Gyro activated. Mini USB for charging Laser transmission indication LED Green – laser transmission Bluetooth indication LED Continuously blue –...
  • Page 194 Battery status LED One LED continuously red – less than 10% charge left. One LED flashing red – less than 5% charge left. One LED continuously orange – charging One LED continuously green – fully charged. Battery status LED when battery button is pressed Continuously green –...
  • Page 195 OPERATING MODES CONNECTIONS Turn the units on and off by pressing the Bluetooth connection ON/OFF button firmly. The M7 and S7 units are connected by the In case the units fail to respond, it is possible built in Bluetooth connection. The units will to turn it off by pressing down the ON button automatically connect to the app when turned for more than 10 seconds.
  • Page 196 (continuously therefore only be used with the Li-Ion on). batteries supplied by ACOEM. Improper replacement of batteries can cause damage The M7 and S7 units can be charged with the and risk for personal injury. Please refer to the supplied charger.

  • Page 197: Sensors M10 And S10

    SENSORS M10 AND S10 Sensors with 1-axis detector, inclinometer and laser transmitter. M10 and S10 work as M7 and S7 with the following additions. The detector is a 3 generation digital sensor. The measurement distance is 15 meters. The operating time of the batteries is approximately 20 hours when the system is used for typical alignment work (continuously on).
  • Page 198 11.2...

  • Page 199: Sensors M9 And S9

    SENSORS M9 AND S9 Mini USB for charging ON/OFF button with status indication Continuously green – On Switching green/red – Gyro Sensors with 2-axes detector, inclinometer activated. and laser transmitter. Laser transmission indication LED M9 and S9 open additional functions in the apps, marked Green –...
  • Page 200 Bluetooth indication LED Battery status LED when battery button is pressed. Continuously blue – paired and Continuously green – battery status ready. Flashing blue – searching/ready to Rolling green – battery charging pair Display No light – Bluetooth disabled. Rotational angle. Battery status button –...
  • Page 201 OPERATING MODES CONNECTIONS Turn the units on and off by pressing the Bluetooth connection ON/OFF button firmly. The M9 and S9 units are connected by the In case the units fail to respond, it is possible built in Bluetooth connection. The units will to turn it off by pressing down the ON button automatically connect to the app when turned for more than 10 seconds.
  • Page 202 (continuously therefore only be used with the Li-Ion on). batteries supplied by ACOEM. Improper replacement of batteries can cause damage The M9 and S9 units can be charged with the and risk for personal injury. Please refer to the supplied charger.
  • Page 203 LASER ADJUSTMENT Height adjustment Side adjustment 12.5...
  • Page 204 LIGHT HOOD EXTENDABLE Accessory. Use in high sun. Use in low sun. 12.6...

  • Page 205: Run-Out Probe P1

    RUN-OUT PROBE P1 documentation of the measuring results. ON/OFF button Bluetooth indication LED Continuously blue – paired and ready. Flashing blue – searching/ready to pair Battery status LED Continuously red – less than 10% charge left. The Run-Out Probe is a battery operated, Flashing red –...
  • Page 206 OPERATING MODES P1 has two operating modes: On and Off. Turn the unit on and off by pressing the ON/OFF button firmly. CONNECTIONS Bluetooth connection The P1 unit is connected by the built in Bluetooth connection. The unit will automatically connect to the app when turned on if it is paired.
  • Page 207 Li-Ion The operating time of the batteries is batteries supplied by ACOEM. Improper approximately 11 hours (continuously on). replacement of batteries can cause damage and risk for personal injury. Please refer to the The P1 unit is charged with the supplied chapter on safety for further instructions.
  • Page 208 13.4...

  • Page 209: Laser Transmitter T21

    LASER TRANSMITTER T21 Battery powered laser transmitter of diode type. The laser transmitter has a built-in angular prism in a turret allowing a 360° laser plane. Laser beam levelling can be made in the X and Y coordinates as well as parallel adjustments.
  • Page 210 LEVELLING Coarse adjustment Untighten the lock ring Fine adjustment Tighten the lock ring. 14.2...
  • Page 211 MOUNTING Flatness The T21 can be mounted on a magnetic base or on a tripod. When using the magnetic base, mount the rod adapter on the magnetic base with the supplied screw. Attach the T21 onto the adapter with the two supplied screw, as shown in picture.
  • Page 212 CALIBRATION OF THE SPIRIT Min 1 meter between the detector positions. LEVELS Zero the levels with the micrometer Position the T21 on a table with flat surface screws. which is in level within 0.2 mm/m in both directions. Mark two positions for the receiver Zero the value on the screen.
  • Page 213 10. Adjust to the R value using the micrometer screws. 11. Check the zeroing, zero again and readjust to R if necessary. 12. Zero the level with the tool. 13. Turn the T21 90°. 14. Turn the turret 90°. 15. Zero the level with the micrometer screws.
  • Page 214 14.6...

  • Page 215: Acoem Home - Launcher

    Toggle between apps* and close apps. Home. Goes to Home screen. ACOEM HOME is an easy-to-use launcher. In ACOEM HOME all available apps are Return. found directly on the home screen. Only run Goes to previous screen. apps approved by ACOEM.
  • Page 216 HOME MENU Settings File Manager. Info. In the Home Menu you can select the app that Off. you want to use. In the Home Menu you will also find access to Settings, File Manager and Info. 15.2...
  • Page 217 Language. SETTINGS Date and Time. Brightness. Auto-Brightness, ON/OFF. Bluetooth, ON/OFF. 15.3...
  • Page 218 Content on USB flash drive FILE MANAGER Content in internal memory of the DU Internal memory. Goes to content in internal USB flash drive. memory. Goes to content on USB flash drive. Transfer files. Opens file transfer window. Transfer files. Opens file transfer window.
  • Page 219 Transfer files INFO Select the files to transfer. In Info you will find Quick Guides and Manuals. Transfer files to USB flash drive. It is possible to add and remove PDF files. Transfer files to Display Unit. 15.5...
  • Page 220 APP UPDATE Download the desired app update from the ACOEM Alignment Insite web portal, add it to the USB flash drive and transfer it to the internal memory of the ACOEM DU. Once transferred (this may take some time) you can press the tab for the internal memory and click on the .apk file to start the...
  • Page 221 .apk ACOEM HOME - FAQ file to start the installation process. Q: Can I use the camera on the ACOEM Q: Can I install 3rd party apps on the ACOEM DU? A: Yes, the camera can be accessed from all A: No, only a selection of approved apps our apps that support the camera.
  • Page 222 A: Yes, the ACOEM Home can be permanently removed. The tablet will then behave and look like a standard Android tablet. This can only be done at ACOEM Sweden at present. Press ‘Use this folder’ Press ‘Allow’ 15.8...

  • Page 223: Flir One

    Flir One app. SUPPORT Flir One Pro-USB-C is compatible with the Easily add thermal image to alignment report. Handheld RT8 - stocked by Acoem AB. Touch the IR Picture icon in NOTE: Only available on Android. PDF report to import IR pictures.
  • Page 224 16.2...

  • Page 225: Technical Specification M7 And S7

    TECHNICAL SPECIFICATION – M7 AND S7 Art. No. M7 1-1216, S7 1-1217 Housing Material Anodized Aluminum frame and high impact ABS plastic over molded with TPE rubber Operating Temp -10 to 50°C (14 to 122°F) Storage Temp -20 to 70°C (-4 to 158°F) Long term storage temp Room temp.
  • Page 226 Detector angular subtense 30 mrad/m (3mm/100mm per meter) Detector resolution 1 µm Measurement accuracy 0,3% ± 7 µm Signal processing Digital signal processing with sidespot rejection, edge detection, ambient light elimination and anti-vibration mode Ambient light protection Optical filtering and digital ambient light signal elimination Inclinometer Dual High Performance MEMS inclinometers...
  • Page 227 LED indicators Unit state, laser transmission and 5 battery status indicators with instant battery check Specifications are subject to change without notice. 17.3...
  • Page 228 17.4...

  • Page 229: Technical Specification M10 And S10

    TECHNICAL SPECIFICATION – M10 AND S10 Art. No. M10 1-1263, S10 1-1264 Housing Material Anodized Aluminum frame and high impact ABS plastic over molded with TPE rubber Operating Temp -10 to 50°C (14 to 122°F) Storage Temp -20 to 70°C (-4 to 158°F) Long term storage temp Room temp.
  • Page 230 Detector angular subtense 30 mrad/m (3mm/100mm per meter) Detector resolution 1 µm Measurement accuracy 0,3% ± 7 µm Signal processing Digital signal processing with sidespot rejection, edge detection, ambient light elimination and anti-vibration mode Ambient light protection Optical filtering and digital ambient light signal elimination Inclinometer Dual High Performance MEMS inclinometers...
  • Page 231 LED indicators Unit state, laser transmission and 5 battery status indicators with instant battery check Specifications are subject to change without notice. 18.3...
  • Page 232 18.4...

  • Page 233: Technical Specification M9 And S9

    TECHNICAL SPECIFICATION – M9 AND S9 Art. No. M9 1-1263, S9 1-1264 Housing Material Anodized Aluminum frame and high impact ABS plastic Operating Temp -10 to 50°C (14 to 122°F) Storage Temp -20 to 70°C (-4 to 158°F) Long term storage temp Room temp.
  • Page 234 Ambient light protection Optical filtering and digital ambient light signal elimination Inclinometer Dual High Performance MEMS inclinometers Inclinometer resolution 0,01° Inclinometer accuracy ±0,1° Gyroscope 6-Axis MEMS Inertial Motion Sensor with drift compensation and automatic field calibration Gyroscope accuracy ±1° Wireless communication BLE Low Energy Bluetooth Communication range 10 m (33 ft)

  • Page 235: Technical Specification P1

    TECHNICAL SPECIFICATION – P1 Art. No. 1-1063 Housing Material ABS plastic Operating Temp 0 to 40°C (32 to 104°F) Storage Temp -20 to 60°C (-4 to 140°F) Long term storage temp Room temp. 18 to 28°C (64 to 82°F) Battery Charging temp 0 to 40°C (32 to 104°F) 10 –...
  • Page 236 Contact thread M2.5 Interface Membrane Switch Keyboard Wireless communication Class I Bluetooth transceiver with multi-drop capability. BLE Bluetooth Low Energy (BT 4.0) Communication range 10 m (33 ft) Connectors 1 USB Mini micro port Charging: 5V, 0.5A Power supply Rechargeable Li Ion battery or external power supply.

  • Page 237: Technical Specification T21

    TECHNICAL SPECIFICATION – T21 Art. No. 1-0897 Housing material Anodized aluminum Operating temperature 0 to 50°C (32 to 122°F) Storage temperature -20 to 70°C (-4 to 158°F) 10 – 90% Relative humidity Weight 1150 g (2.54 oz) Dimensions 100 mm x 103 mm x 109 mm (3.9 in x 4.0 in x 4.2 in) Laser 650 nm class II diode laser...
  • Page 238 21.2...
  • Page 240 Publication No. P-0347-GB © 2023 ACOEM AB, Mölndal, Sweden All rights reserved. No part of this manual may be cop- ied or reproduced in any form or by any means without prior permission from ACOEM AB acoem.com...

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