Sino Sds6 User manual

SINO

DIGITAL READOUTS

SDS6

Operation Manual

GUANGZHOU LOK SHUN CNC EQUIPMENT LTD.

Dear Users:

1、Thank you for purchasing the products of the digital readout device

of Guangzhou Lokshun CNC Equipment Ltd. "Sino", " " is its registered

trademark. It is a precision measurement products and mainly for various

types of manual machine tools machining or testing equipment to provide a

Detection and localization function.

2、Guangzhou Lokshun CNC Equipment Ltd has the" " registered

trademarks.

Notice：Please read the following safety instructions and precautions for

safety operation of the new digital display meter device.

When using the manual:

● Chapters and sections are listed in the table of contents( see P5~6

ahead).

● This manual includes some instructions for panel keys of SDS6 digital

display meter and other series, including.

SDS6-2V

the readout used for 2 axis milling machine and

grinding machine and lathe machine

SDS6-3V

the readout used for

3

axis milling machine and

lathe machine and discharging processing

It is recommended that:

● Instructions for panel keys of the SDS6 digital display meter that is

applicable to this manual are listed in P1~4 of the above Section 1.

● Read through follow safety precautions and Section 2( see P102~107),

which are very important to the safe operation of your digital display meter.

Safety Precautions:

Caution:

■ Do not dampen or splash coolant directly onto the unit to avoid electric

shock or fire.

Warning:

■ Do not open the enclosure optionally to avoid electric shock, there is no

element repairable by the user inside. Turn to appointed technician for repair.

■ If the unit is not used for along time, the chargeable lithium batteries for data

retention inside the digital display meter will be damaged. Please contact

Guangzhou Lokshun CNC Equipment Ltd. agent or professional technicians

for battery replacement when using it again.

Notes:

● Disconnect power plug promptly if the digital display meter emits smog or

peculiar smells, when an electric shock or fire may be caused when

continuing to use it. Please contact Guangzhou Lokshun CNC Equipment

Ltd. or dealer and never attempt to repair it by yourself.

● The digital display meter constitutes a precision detection device with an

optical electronic ruler. Once the connecting wires between the two parts are

broken or damaged of surface during use, error in detection data might be

caused, to which the user should pay special attention.

● Do not repair or refit the digital display by yourself, otherwise a fault or

damage might be caused. In the case of abnormality, please contact

Guangzhou Lokshun CNC Equipment Ltd. or dealer.

● Once the optical electronic ruler used in the digital display meter is damaged,

do not replace it with rulers of other brands, because products of different

companies have their respective characteristics, indicators and wiring. Never

make wiring without the guide of professional technicians, otherwise the

digital display meter might get into fault.

Notice: The Interpretation of this manual belongs to Guangzhou Lokshun CNC

Equipment Ltd.

Forgive product upgrades without further notice.

The displacement sensor complies with 2006/95/EC directive for

low-voltage electric apparatus and 2004/108/EC directive for EMC.

Our company has passed the authorization and the audit of ISO9001 Quality

System, ISO14001 Environmental System, OHSAS18001 Occupational

Health and Safety System.

Illustration of Panel and Keyboard

1

SDS6-3V READOUT PANEL AND KEYBOARD

SDS6-2V READOUT PANEL AND KEYBOARD

Illustration of Panel and Keyboard

2

√—

Caption of the Keyboard of SDS6

Keys for cleaning the displayed

value to zero

Keys for Axis selection

Entry keys for digits

Operation Key (in Calculation

function key)

Calculation function key

(in Calculation function key)

Input (calculation result)

canceling key(in Calculation

function key)

Key for “Inverting”

Trigonometric Functions

(in Calculation function key)

Square root calculating key

(in Calculation function key)

Entry keys for decimal point

Entry key plus or minus symbol

+-

=

×÷

±

01234

56789

X0Y0Z0

Illustration of Panel and Keyboard

3

Key for entering data

Key for cleaning the displayed

value to zero

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

Angular surface processing

function key; In calculation

function as sine trigonometric

function key

12

R

Illustration of Panel and Keyboard

4

Progressive inner chamber

processing function key; In

calculation function as cosine

trigonometric function key

Tool compensation function key;

In calculation function as

tangent trigonometric function

key

Key for the conversion of

relative/absolute display

Key for the selection of

upper/lower term or plane

procession

Key for taper measure function

Key for calling 200 tool

storeroom

Key for input 200 tool storeroom

Key for radius

Function key for machine output

(EDM)

（only SDS6-3V readout has）

Function key for data filtration

（only SDS6-2V readout has）

TOOL

Catalogue

5

Catalogue

A. Basic Functions …………………………………………………………. 1

B. Smooth R ……………………………………………………………….. 15

(Be the same with: MIIL_MS 、MIIL_M)

C. Simple R ………………………………………………………………... 27

(Be the same with: 2V-MIIL_MS 、2V-MIIL_M)

D. Hole Drilling Along An Oblique Line ………………………………… 34

(Be the same with: MIIL_MS)

E1. The Function For 200 Point Subsidiary Zero Position ……………... 38

(Be the same with: MIIL_MS、MIIL_M、EDM)

E2. The Function For 200 Point Subsidiary Zero Position ……………... 47

(Be the same with: LATHE)

E3. The Function For 200 Point Subsidiary Zero Position ……………... 55

(Be the same with: 2V-GRIND)

F. PCD Circle Equally Dividing Holes …………………………………... 62

(Be the same with: MIIL_MS、MIIL_M、EDM)

G. Angular Surface Processing ……………………………………………66

(Be the same with: MIIL_MS)

H. The Function-Calculator Function ………………………………….. 71

(Be the same with: MIIL_MS)

Catalogue

6

I. Tool Diameter Compensation ………………………………………… 74

(Be the same with: 3V-MIIL_MS)

J. 200 Tool Storeroom……………………………………………………. 77

(Be the same with: LATHE)

K. The Function Of Measure For Taper ……………………………….. 81

(Be the same with: LATHE)

L. (EDM)Matching Output Function ………………………………….. 83

(Be the same with: 3V-EDM)

M. Digital Filter Function ………………………………….…………… 93

(Be the same with: 2V-GRIND)

N. N3 Function ………………………………….…………….. …………95

(Be the same with: 2V-MIIL_MS)

O. The Progressive Progressing of rectangular Inner chamber ………. 99

(Be the same with: 2V-MIIL_MS)

P. Additional sheet……………………………………………………….. 102

A. Basic Function

1

A.

Basic Functions

A. Basic Function

2

SEL

Model

Number of axes

Display resolution

Special mark for

milling machine

We take pleasure to tell you that this machine tool optical digital display ruler

device you are using is the one most popular in Europe.

You will be able to use this device easily after you have read this manual

thoroughly. Thank you!

I. Usage

1. Start, Self check

1) Selecting the power voltage,

switching the power on

2) Self check of the meter

3) Self check finished,

enter working mode

Note: Two axial readout only has

X-axis and Y-axis, three axial

readout has X-axis, Y-axis and Z-axis. The lathe machine readout

display “LATHE”; the grinding machine readout display “GRIND”;

the multifunctional milling machine readout display “MILL_MS”; the

universal milling machine readout display “MILL_M”; the discharging

processing readout display “EDM”.

2. Setting of System

In process of self check, key , then the system enter setting mode after self

check finished.

1) Setting axis X resolution.

Setting different resolution according to keying different numbers.

Number key

0

1

2

5

7

8

9

Resolution

(um)

10

1

2

5

0.1

0.2

0.5

Key , next step

2) Setting axis Y resolution.

Setting method alike axis X

Key , next step

3) Setting axis Z resolution.

Setting method alike axis X. SEL

SEL

Message screen displays

"ALE" or "INC" or "ZER"

A. Basic Function

3

SEL

Key , next step

4) Setting counts direction of axis X linear encoder.

Key as positive direction count.

Key as reverse direction count.

Key , next step

5) Setting counts direction of axis Y linear encoder.

Setting method alike axis X.

Key , next step

6) Setting count direction of axis Z linear encoder.

Setting method alike axis X.

Key , next step

7) choose machine type

SDS6-3V readout：

multifunctional milling machine readout

universal milling machine readout

discharging processing readout

lathe machine readout

SDS6-2V readout：

multifunctional milling machine readout

universal milling machine readout

grinding machine readout

lathe machine readout

key ，next step

8) choose whether integrate Y-axis with Z-axis

press or can realize the conversion

“NONE” means no integration

“INGREAT” means integration and the integrated

0

1

0

1

2

3

01

0

1

2

3

A. Basic Function

4

value displays in Y-axis LED.

Press ，next step

Note: only 3 axis lathe machine has this function.

9) choose compensation type

choose line error compensation “LINEAR”;

choose Segmented error compensation

“SEGMENT”;

Press ，next step

10)choosing the display type of the axis

linear display function“RAS_X”

angle display function“ENC_X”

press ，press next step,

choosing Y axis display type function。

On the same way choosing the Z axis displayType.

Notice：if choosing angle display type, then

automatic enter the function of setting the line of encoder. the

angle display Support minutes and seconds

demonstration and Decimal display mode. Innormal mode, press

+ key to switch. If having chosen the inch display mode in angle

display mode, the angle display has priority and the range of

angle value is from 0 to 360 degree.

11) Self test.

Key twice, the Self-test program started

then key to quit,or press twice down key quit.

3. Returning the displayed Value to zero

1) It is possible to return to zero any

point, take the example of X axis

display.

2) Key

SEL

0

1

0

A. Basic Function

5

20

13

5

ABC

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.

2) Align the Tool with Hole A.

3) Select the key for axis, key .

4) Key ,Enter the value(If the entered value

is wrong, key and enter the correct one

again)

5) Key , (If any mistake is found now, repeat

steps 3~5).

6) Move the machine table to the position

of 13, and the processing at Point B can

start.

5. Absolute/relative/user coordinate display

mode.

Key , the absolute/relative display

mode will convert one the other, following are

operations.

1) Let the Tool point to Point M

reset under the absolute mode.

Key or

Key

2) Move the machine tool to

Position A.

3) Move the machine tool to

Position. B.

5SEL

SEL

M

A

D

C

B

E

50

30

10

20

10

SEL

A. Basic Function

6

4) Key

5) Move the machine tool to

Position C.

6) Move the machine tool to

Position D.

7) Return to the absolute mode

8) Move the machine tool to

Position E.

Note: The resetting in the absolute and the relative display mode must be

done separately. In absolute display mode, “ALE” is displayed on

Message Screen. It is in absolute display mode when “INC” is display

Message Screen.

Keying , can also realize the conversion between the two display mode,

and it is also possible to enter the display mode of 200 sets of user coordinates, as

shown in the following circulating schematic diagram.

Key and enter the display mode of 200 sets of user coordinates directly.

Enter the number

Key digit keys, such as Entered the display mode

of No. 50 set of relative

coordinates.

SEL

50

SEL

A. Basic Function

7

6. key display

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.

2) Key axis key

3) Key

4) Move the machine tool to bring the

axis displayed value into zero, and

the center position is reached.

(in the same method can determine the center positions of Y-axis and Z-axis).

note: Lathe machine without this function.

7. “R/D” (Radius/Diameter) Switch Display.

X axis datum on the center line.

1) Cutting tool in place A.

2) Key

3) Move the cutting tool to place B.

4) Key

Notes: only lathe machine has this function；A lit “SEL” indicator means

diameter display, Y、Z axis is not able to display so.

8. The switch of the summing axis value displaying type.

12

SEL

144

6

SEL

B

A

φ20

φ10

12

A. Basic Function

8

In the function of Y, Z axis summing, press can switch the display

mode.

1) if the former display mode is summing,

press switch to separate mode.

2) if the former display mode is separation,

press switch to summing mode.

Note: only the lathe machine digital displayer has the function; the parameter

option” whether the Y\Z axis summing display” must be set summing mode;

the Z axis only displays the digital value, and can’t be preset value or clear.

9. "M/I" (The mm System/inch System) Conversion Display.

Key ,the size displayed in the

mm System/inch system will convert

one to the other.

1) The original display is in the mm

system, and the display in inch is

desired.

2) Key

3) Key or choose the bits of decimal;

（4 bits or 5bits）

Key

4) Enter processing mode of Hole B

5) Key can convert directly to mm System

10. Segmented error compensation

Note: only in Metric system can do Segmented error compensation . After

Segmented error compensation, the display can be converted freely betweef

Metric system and Imperial system.

There are two methods for Segmented error compensation of the digital

display meter:

1. To carry out error compensation taking the start point as the mechanical

SEL

AB

2.4"

1"

Y

Z

ALE

Y

Z

ALE

A. Basic Function

9

origin. (Figure 1)

2. To carry out error compensation taking the 1st absolute zero of the raster

ruler as the mechanical origin. (Figure 2)

L: The distance of effective range of raster ruler

L1: Length of the compensation segment

L2: Effective distance of the compensation segment

1. Set up according to the sketch map 1. The parameter set-up method is as

follows:

1) Move the raster ruler to the

smallest end of the coordinate data Enter into the ALE right-angle coordinate

system

2) Press , enter into the input function of multi-segment compensation

of X axis (the set-up method for Y axis and Z axis is the same as X axis.)

3) setting compensation of Segmented error

1.FIND_ZE

(searching for the origin, suiting for having set the compensation of

segmented error)

press switchint to next step

2. SET_SEG

(setting compensation of segmented error)

press ，next step

Notice：be sure to find the origin before setting compensation of segmented

A. Basic Function

10

0

2

error.）

4）Find the mechanical origin

There are two methods for setting the compensation origin.

1、directly press to choose the current position as origin.

2、Press to choose the 1st absolute zero of the raster ruler as the

mechanical origin.

Move towards the positive direction of X axis of the

machine tool and search for the 1st absolute zero of the raster ruler as the

mechanical origin. After find the origin, then auto enter the next step for data input.

This time the X-axis displays the raster ruler fact value, the laser value is inputted

from Y-axis.

5) Input the compensation setup of the 1st segment

Move towards the positive direction of

X axis of the machine tool until get to the

place of compensation.

Press

（When press ,Y-axis will displays the X-axis’s value, and that means the

compensation value has been setup. If the value input is wrong, don’t move the

raster ruler, and press ,then press , this time the digit-display LED of

Y-axis will be in input state, and input the right value again.）

Press , and 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

measurement value by laser

6) Input the compensation setup of the 2nd segment

Press

Press , enter into the next set-up point

0

2

Y

X

1

coordinate value

The

standard value or the

measurement value by laser

Y

X

A. Basic Function

11

7) Input the compensation setup of the 3rd segment

Press

Press , and enter into the next set-up point

8) Input the compensation setup of the 4th segment

Press

Press , and enter into the next set-up point

9) Input the compensation setup of the 5th segment

Press

Press , and enter into the next set-up point

10) Input the compensation setup of the 6th segment

Press

After the setup is finished, press key to exit.

Remarks: The input zone for the compensation value of Y axis and Z axis is the

coordinate display zone of X axis.

2. The cancellation method of Segmented compensation value

The Segmented compensation value is only aimed at the digit display meter,

raster ruler and machine tool set up together. If the raster ruler or digit display

meter 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 cancelled. The cancellation method is:

According to the set-up method of Segmented compensation indicated above,

when it is indicated to input the quantity of compensation points, input 0 as the

compensation segment, then all the compensation setup parameters are initialized.

At this time, all the compensation values set up before are cancelled automatically.

30

40

50

60

Y

X

Y

X

Y

X

Y

X

SINO SDS6 User manual

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