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SINO SDS2-3MS Operation Manual

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DIGITAL READOUTS
SDS2-3MS
Operation Manual

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Trevor Johnsson
January 28, 2025

How do I return a SDS2-3MS DRO to its factory settings?

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Summary of Contents for SINO SDS2-3MS

  • Page 1 DIGITAL READOUTS SDS2-3MS Operation Manual...
  • Page 2 ● Chapters and sections are listed in the table of contents( see P5 ahead). ● This manual includes some instructions for panel keys of SDS2-3MS digital readout and other series, including. the readout used for multi-functional 2 axis milling SDS2-3MS...
  • Page 3 Our company has passed the authorization and the audit of ISO9001 Quality System, ISO14001 Environmental System, OHSAS18001 Occupational Health and Safety System. Notice: The Interpretation of this manual belongs to Guangzhou SINO DRO Co., Ltd . Forgive product upgrades without further notice.
  • Page 4 Illustration of Panel and Keyboard...
  • Page 5 Illustration of Panel and Keyboard Caption of the Keyboard of SDS2-3MS Returning the displayed Value to zero(X/Y/Z Axis) Keys for Axis Selection Entry keys for digits Operation key(in calculation function key) Calculation key(in calculation function key) Input (calculation result) canceling key(in Calculation function key) Key for “Inverting”...
  • Page 6 Illustration of Panel and Keyboard Function key for getting one half Key for the conversion the meter System/ British system display Function key for Sleep Function key for 200 zero Position R angular ARC function key (ARC Function key) Function key for circle equally Dividing (PCD Function key) Function key for drilling holes along an oblique line...
  • Page 7 Illustration of Panel and Keyboard Key for the conversion of relative/absolute display Key for the selection of upper/lower term or plane procession...

  • Page 8: Table Of Contents

    Catalog Catalog 1. A Basic Functions …………………………………………………………. 1 2. B Smooth R ……………………………………………………………….. 14 (Be the same with: MIIL_MS 、MIIL_M) 3. C Hole Drilling Along An Oblique Line ………………………………… 22 (Be the same with: MIIL_MS) 4. D The Function For 200 Point Subsidiary Zero Position ……………... 25 (Be the same with: MIIL_MS、MIIL_M、LATHE) 5.

  • Page 9: A Basic Functions

    A. Basic Function Basic Functions Model 1. Start, Self check 1) Selecting the power voltage, Special mark for switching the power on milling machine Number of axes Display resolution 2) Self check of the digital readout Message screen displays "ALE" or "INC" or "ZER" 3) Self check finished, enter working mode Note: Two axial readout only has X-axis and Y-axis, three axial readout has...
  • Page 10 Note: “0” and “1” do not represent the positive and negative direction of machine tool, they are only used for converting the counting direction. 7) Choose machine tool type Digital Readout SDS2-3MS universal milling machine digital readout multifunctional milling machine digital readout...
  • Page 11 A. Basic Function choose linear compensation function “LINEAR”; Press choose Segmented error compensation “SEGMENT”; Press Press , next step 10) Choose linear axis display and angle axis display, setting methods are: Press to choose linear axis display function“RAS_X” Press , next step, enter into Y axis display. Press to choose angle axis display function“ENC_X”...
  • Page 12 A. Basic Function 2) Key 3) Key to clear the value, and key again to return the value 4. Presetting data 1) As shown in the figure, after the processing of Hole A finished, the position of the working piece has been adjusted, Hole B is to be processed.
  • Page 13 A. Basic Function 4) Press 5) Move the machine tool to Position C 6) Move the machine tool to position D 7) Return to absolute mode and press 8) Move the machine tool to position E Note: The resetting in the absolute and the relative display mode must be done separately.
  • Page 14 A. Basic Function Key display 1 4 4 As shown in the figure, the enter between two points is to be found。 1) Let the tool touch the one edges of the working piece and Return the X-axis displayed Value to zero, then move the tool along the direction of arrow and let it come to touch the other edges of the working piece, then do the next step can determine the center position.
  • Page 15 A. Basic Function 8. Axis summing / separate summinging display In the function of Y, Z axis summing display and separate display, press to switch the display mode. 1) Switch summing display into separate display 2) Press 3) Press again to return to summing display Note: only in the lathe machine digital display mode it has the function, the parameter option “whether the Y\Z axis in summing display”...
  • Page 16 A. Basic Function 10. Segmented error compensation Notes: only in Metric system can do Segmented error compensation . After Segmented error compensation, the display can be converted freely between Metric system and Imperial system. There are two methods for Segmented error compensation of the digital readout 1.
  • Page 17 A. Basic Function Press , convert 2. SET_SEG (segment error compensation) Press , next step Remarks: both of the two modes enter into the finding of the mechanical origin, only the segmented compensation can enter into the compensation interface after find the reference point 4)Find the mechanical origin 5)There are two methods for setting the compensation origin, after the machine origin interface is confirmed.
  • Page 18 A. Basic Function raster ruler, and press , then press , this time the digit-display LED of Y-axis coordinate value will be in input state, and input the right value again. Press , enter into the next set-up point Remarks: In this function, the display of X axis is the coordinate value, while Y axis displays the standard value or the The standard value or the...
  • Page 19 A. Basic Function ruler and machine tool set up together. If the raster ruler or digital readout whose Segmented compensation value is set up in a machine tool is moved to another machine tool, the Segmented compensation value needs to be reset. When the Segmented compensation function is not needed, the Segmented compensation value is to be canceled.
  • Page 20 A. Basic Function 11. Linear Error Compensation The linear error compensation function is used to make the linear correction of the system error of the grating metering system. Correction factor S =(L-L')/(L/1000) mm/m L---the actually metered length (mm) L'---the displayed value on digital display meter (mm) S---the actually factor (mm/m), "+"...
  • Page 21 A. Basic Function 13. Sleep Switch The switch on the back panel of the digital display box may once be turned off during the processing of a working piece. It is true that the SDS Series digital box has its interruption memory, but the machine tool may have been moved after the event.

  • Page 22: B Smooth R

    The advanced smooth R arc Calculation function provided in SDS2-3MS model digital display box makes it possible to complete the processing of a single piece such as molding copper electrode easily and quickly with a universal milling machine.
  • Page 23 B. Smooth R(Be the same with: MIIL_MS 、MIIL_M) circular arc. In Plane XY、XZ or YZ, the coordinate of a point is its position with respect to the zero point on the plane. The coordinate of zero point O:(0,0) The coordinate of Point A:(20,20) The coordinate of Point B:(30,10) The coordinate of Point C:(-20,20) The coordinate of Point D:(-30,10)
  • Page 24 B. Smooth R(Be the same with: MIIL_MS 、MIIL_M) installation of Tool and the related tool setting (assign the position A of the tool after tool setting as the zero point). , enter the Arc R Calculation function. 1. Select the smooth R function (SMOOTH). The center axis 2.
  • Page 25 B. Smooth R(Be the same with: MIIL_MS 、MIIL_M) to Point F, and 90° when from F to E. 8. Enter the end angle of the arc (ED ANG) This determines the position of the last cut feed in the processing of circular arc. As shown in Fig.
  • Page 26 B. Smooth R(Be the same with: MIIL_MS 、MIIL_M) ) Enter the radius of the circle. 6) Enter the diameter of the tool. 7) Enter the maximal cut. ) Enter the start angle of the arc. ) Enter the end angle of the arc. 10) Determine inner/outer circle mode.
  • Page 27 B. Smooth R(Be the same with: MIIL_MS 、MIIL_M) 13) Key and the position of any processing point may come to be displayed, and you can move the machine tool to bring the displayed values on the both axes into zero and reach the position of the corresponding point of the R circular arc.
  • Page 28 B. Smooth R(Be the same with: MIIL_MS 、MIIL_M) ★ Now use arc milling cutter and finsh tool setting like FIG. (B) 6) Enter the diameter of the tool. 7) Enter the maximal cut. ) Enter the start angle of the arc. 9) Enter the end angle of the arc.
  • Page 29 B. Smooth R(Be the same with: MIIL_MS 、MIIL_M) to bring the display value into zero, that’s the point of each R. You may quit ARC function at will, just key...

  • Page 30: C Hole Drilling Along An Oblique Line

    C. Hole Drilling Along An Oblique Line(Be the same with: MIIL_MS) Hole Drilling Along An Oblique Line (Be the same with: MIIL_MS) The function of hole drilling along an oblique line Normally, for processing the working pieces shown in the right figure the operator must calculate out the distance between two neighboring holes in X- and Y- axis;...
  • Page 31 C. Hole Drilling Along An Oblique Line(Be the same with: MIIL_MS) 4) Enter the length of the oblique line 5) Enter the angle 6) Enter the number of holes 7) The position of the first hole is displayed, enter processing state. 8) Key to display the position of next processing point, and then move the machine tool to bring the displayed value into zero.
  • Page 32 C. Hole Drilling Along An Oblique Line(Be the same with: MIIL_MS) 5) Enter the angle 6) Enter the number of holes 7) Enter processing state, display the Position of the first hole 8) Key to display the position of next processing point, and then move the machine tool to bring the displayed value on both X- and Y-axes into zero.

  • Page 33: D The Function For 200 Point Subsidiary Zero Position

    D. The Function For 200 Point(Be the same with: MIIL_MS、MIIL_M、LATHE) The Function For 200 Point Subsidiary Zero Positions (Be the same with: MIIL_MS、MIIL_M、LATHE) 200 subsidiary zero position function: 200 auxiliary zero position function: also is called 200 user Coordinate System (UCS) function. ALE: Absolute Coordinate System.
  • Page 34 D. The Function For 200 Point(Be the same with: MIIL_MS、MIIL_M、LATHE) Ⅱ. The operator may fully use this function as the following: 1. Set the zero position in absolute mode (ALE lamp on) at the main reference point of the working piece, for example, Point O in Fig. (1) in next page. Set subsidiary zero positions at subsidiary reference points of the working piece, for example, Points 1, 2 and 3 in Fig.
  • Page 35 D. The Function For 200 Point(Be the same with: MIIL_MS、MIIL_M、LATHE) 1) After setting the zero position in the absolute mode, the system automatically perform a keeping in memory operation, in order that once a power interruption happen in the course the zero position may be tracked back. 2) Enter the UCS display mode.
  • Page 36 D. The Function For 200 Point(Be the same with: MIIL_MS、MIIL_M、LATHE) 7) Enter the display mode of the third zero position. The setting of all the subsidiary zero positions of the working piece shown in Fig. (1) has been finished. Method 2: Clearing when the position is reached. When the machine tool is at the position of the subsidiary zero point, key We take the working piece shown in Fig.
  • Page 37 D. The Function For 200 Point(Be the same with: MIIL_MS、MIIL_M、LATHE) 6) Move the machine table of the machine tool to Point 2. X axis display 70, Y axis display-40. 7) Enter the display mode of the second UCS. 8) Clear, set the second subsidiary zero point. 9) Return to the absolute state display mode.
  • Page 38 D. The Function For 200 Point(Be the same with: MIIL_MS、MIIL_M、LATHE) Ⅳ. The usage of subsidiary zero positions. After entering the display mode of the UCS, the corresponding subsidiary zero positions may be used to help in the processing. It is possible to enter a UCS display mode using key 、...
  • Page 39 D. The Function For 200 Point(Be the same with: MIIL_MS、MIIL_M、LATHE) Y axis display 20. 9) Process Hole C 10) Enter the display mode of the third UCS. 11) Move the machine tool to point 3. X axis display 0, Y axis display 0. 12) Enter PCD function, process the six small holes distribute uniformly on the circle center at Point 3.
  • Page 40 D. The Function For 200 Point(Be the same with: MIIL_MS、MIIL_M、LATHE) A subsidiary zero position is being used of course under the display mode of the corresponding UCS, resetting in this state is actually to reset a new subsidiary zero position. The point at which the resetting operation act become the new subsidiary zero position, and the new subsidiary zero position replacing the original subsidiary zero position.

  • Page 41: E Pcd Circle Equally Dividing Holes

    E. PCD Circle Equally Dividing Holes(Be the same with: MIIL_MS、MIIL_M、EDM) E.PCD Circle Equally Dividing Holes (Be the same with: MIIL_MS、MIIL_M) Circular arc equally Dividing Function(PCD Function) This function may be used to divide a circular arc equally, for example in the processing of drilling holes distributed uniformly on a flange.
  • Page 42 E. PCD Circle Equally Dividing Holes(Be the same with: MIIL_MS、MIIL_M、EDM) Tale the processing of the circular working-piece in Fig. (c) as example: 1) At first, find out the center position of the working piece and finish tool setting reset. to enter PCD function. 2) Key select processing plane.
  • Page 43 E. PCD Circle Equally Dividing Holes(Be the same with: MIIL_MS、MIIL_M、EDM) , next step. 7) Enter the end angle. If the arc is dividing by 6 points. , next step. If the whole circle is divided by 7 point. , next step. 8) Enter processing The display result for dividing the arc into 5 equal sections.

  • Page 44: F Angular Surface Processing

    F. Angular Surface Processing(Be the same with: MIIL_MS) F. Angular Surface Processing ( Be the same with: MIIL_MS) Angular Surface Processing When the processing of a rather large angular surface is one part of job, the angular processing function can make the job much easier. Ⅰ.
  • Page 45 F. Angular Surface Processing(Be the same with: MIIL_MS) 1) Set the working piece on the machine table with a bank angle equal roughly 45° 2) Select Plane XY. 3) Enter the angle of the angle surface 4) Move the machine table along X axis. Let the metering tool come just in contact with the working piece, and adjust the scale reading into zero, then move the...
  • Page 46 F. Angular Surface Processing(Be the same with: MIIL_MS) 1. Select Plane XZ or YZ. 2. Enter the diameter of the tool (DIA). 3. Enter the start point (ST POS). 4. Enter the end point (ED POS). 5. You may quit the angular surface processing function at will, just key Refer to the example: 1)Align for the bank angle, finish tool setting, and key...
  • Page 47 F. Angular Surface Processing(Be the same with: MIIL_MS) 7)Key and respectively the position of last/next processing point will be displayed. 8)You may quit the angular processing function at will, just key...

  • Page 48: G The Function-Calculator Function

    (Be the same with: MIIL_MS) The Calculation function Sometimes it is necessary to calculate out some values during the processing, SDS2-3MS Series digital display boxes are provided with simple Calculation function. The details are as following: All the resulted value is displayed on X axis.
  • Page 49 G. The Function Calculator Function(Be the same with: MIIL_MS) 44.99134 Make the following calculation: √ The distance AB in the figure = =31.62277 × 31.62277 — √ × 90° Display for the result: Transfer the value 31.62277 to Y axis. As shown in the figure, the distance AB=31.62277, the tool is at Point A, move the machine table to bring the displayed value into zero, the position of Point B is reached, the processing of Hole B may start.

  • Page 50: H Tool Diameter Compensation

    H. Tool Diameter Compensation(Be the same with: 3V-MIIL_MS) H. Tool Diameter Compensation ( Be the same with: 3V-MIIL_MS) The Tool Diameter Compensation Function In the processing of the four sides of the fitting shown in (1), the operator has to run for an additional feeding distance equal the diameter of the tool in every side to complete the processing of the whole length,...
  • Page 51 H. Tool Diameter Compensation(Be the same with: 3V-MIIL_MS) The processing of Plane a and of the fitting shown in Fig. (1). 1) Key to enter the tool compensation function. 2) Select a processing mode to preset. Start the processing at the position shown in Fig.

  • Page 52: (Be The Same With: Miil_Ms)

    I. The Progressive Progressing(Be the same with: 2V-MIIL_MS) I.The Progressive Progressing of rectangular Inner chamber (Be the same with: MIIL_MS) The progressive progressing of rectangular inner chamber When the job is to process the inner chamber of the fitting shown by the working drawing of Fig.
  • Page 53 I. The Progressive Progressing(Be the same with: 2V-MIIL_MS) 4) Enter the size of the inner chamber 5) Enter processing state. 6) Key to display the processing position of next step, refer to the prompts and move the machine to bring the displayed values on both X- and Y- axes into zero.

  • Page 54: Additional Sheet

    Additional sheet Additional sheet: Ⅰ. What the user must know: 1. The digital display box must be handle carefully. 2. The box must be grounded properly. 3. Power voltage selection: AC 100V~240V 50 Hz~60 Hz 4. Power consumption: 25VA 5. Working temperature: 0℃~45℃ 6.
  • Page 55 Additional sheet Ⅱ. Trouble shooting and handling: Troubleshooting of Grating Ruler and Digital display Meter The following troubleshooting is primary only. If there are still problems, do not dismantle them by yourself, seek help from our company or corresponding agents. Symptom of Source of failure Troubleshooting...
  • Page 56 Additional sheet Symptom of Source of failure Troubleshooting failure Grating ruler 1. Grating ruler falls outside the 1. Repair the grating ruler. does not usable range of length, reading count head cracked up. 2. Reading head of grating ruler rubs 2.
  • Page 57 Additional sheet Ⅲ. Structural principle Our linear encoder and digital readout are high technological production that is combined with photo electronic technology, precision mechanical technology, microelectronic technology and computer technology, and so on. The customer without being trained may not repair this system. The structural principle is as follows.
  • Page 58 Additional sheet Ⅴ. Product packaging bill 1. a piece of SDS2-3MS series digital readout 2. a piece of power wire 3. a copy of operating instruction 4. a copy of verified certificate 5. a piece of dustproof cover 6 . a piece of bracket B...
  • Page 59 Additional sheet Dear users: Thank the purchase and use of our products! In order to make our services to make you more satisfied after the purchase, please read the following instructions: ●Products shall be delivered with "Three Guarantees" and 15-day limited replacement and free repair within the period of one warranty year (from date of sale).
  • Page 60 Add:No.13 workshop,3rd Industrial Park, Xilang East Road,Liwan District,Guanngzhou p.c:510385 Tel:(+8620)81639851 E-mail:administration@sino-ld.com Version: 2020-09 A version Subject to change without notice...

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