USER S MANUAL FOR DESIGN INPUT
Contents
1. 30 m Data Input by Using the Direction Key on the Keyboard 31 m Data Input by Using the Numeric Keys on the Keyboard 31 7 Edit Function sens es 32 1 Editing Sewing Data 33 m Editing with the Mouse Pointer 33 m Editing with the Keyboard Direction Key 34 m Editing by Input Value of the Keyboard 34 m Editing by the Sequence of Stitch Creation 34 8 Data Processing 37 1 Other Useful Functions 38 m Edit Tools 38 m Enlarge Reduce Rotate Move Mirror 42 m View Max Min Sewing Area 44 m Measurement of the Length Between Two Stitches 45 2 Sewing Setup 46 m Setting Up the Sewing Range 46 m Setting Up the Sewing Data Range 47 E Slitch Points Layout EAS 48 Copy e Paste sas eee sae aaa 49 9 Pattern Data INpUulOULDUE sessaess sia GARA ES 50 D Save Open Files aa ee ea ea 51 m Save Files 51 Save 2070P Filas s22sosses2 ee2. 9 e PAPAS AA ea 9 3 Accessories 10 4 System Requirements 10 5 Installing the Program 4 se a scsi 11 m Program Installation Unavailable for Windows 95 11 Getting Started 4 4 6 14 1 Introduction 14 2 Stan and Finish of Program lt 2 42 2 22 ees eee 15 2 Caution 16 Configuration of Program Function 17 1 Program Operation Flow 18 PEGI WINdOW Stop opos pais 19 3 Meun Bar 20 A TOO bal mannen RR RE RA R 2 5 Status Bar 24 6 Sub Tool Bar 24 Data Configuration 26 1 Data Construction 07 2 Sewing Dala 2 2 n etki x bc eas ees poi 98 SAUMO Dala ath cosacos tanteo tatoo anta o E 98 4 Selection of Elements Using the Mouse 98 Data Creation so es nnsssnenisa cabe ios bbs 29 1 Creation of Sewing Data 30 Data Input by Using the Mouse
3. 3 Enter 2 for X and 2 for Y And press the Yes button You will see that the selected pattem is moved 43 44 He STEP STEP Mirror Tums selected sewing data into a mirror image Select sewing data to turn into a mirror image Mirror Reflection Dialog static Select the Mirror button And the Mirror Dialog box is C Kais ox displayed The Mirror Dialog box works as follows pais a x axis Turns the data into a mirror image along the x axis ec y axis Turns the data into a mirror image along the y axis 3 Press the Yes button The selected pattern is displayed in the shape of dotted lines with the entire area of its size established as in the picture Move the mouse pointer and indicate a marker by left clicking the mouse as In the picture Right click the mouse this time Upon right clicking it you will get the Mirror Point Dialog box displayed on the screen Mirror Point Dialog This point i to be set to the reperence point l it alright 7 Cancel Press the Yes button And you will see that the same pattern is created on the basis of the marker of the y axis View Max Min Sewing Area Displays the maximum minimum area for the sewing data existing in the edit area To use this function there should exist sewing data in Sew Meane InputDevice the edit area 3 v Toolbar s Status Bar 2 Select View located in the menu bar and then select To
4. In the above figure the values of the point and on the y axis are respectively 2 and 0 In the meantime the transfer direction is regular since it transfers from to Accordingly the transfer distance on the y axis is 2mm 2 0 2 When this is converted into an actual value of transfer distance of the BT step motor it becomes 2mm The input value of the BT transfer on the y axis is 2 00 Now we are going to talk about the transfer sequence for sewing works using this kind of transfer input value You are expected to have a good understanding of the sewing sequence based on the above figure to better understand the transfer sequence The needle first starts to sew on the basis of the coordinate value of the x axis at which is the starting point In this case the value on the y axis determines the input value of the transfer distance on the y axis needed to transfer to the next x axis at depending on the existence of a BT code at That is the fact that the value of the y axis transfers means that there exists a BT code and this moves the step motor for BT as much as the corresponding transfer distance on the y axis Y axis 2 00 1 50 1 00 0 50 0 50 1 00 E gt T Transfer amount a Transfer amount of the y axis to ofthe y axis to transfer to the 7 transfer to the point Reverse point Regular Transfer Transfer X axis Therefore since sewing was done at and there Is
5. ZIP Microsoft Word TN 5 Outlook Express UE uitrazdit s2 5 SunStar SSPZ is Microsoft Developer Network b 14 Microsoft Visual Studio 6 0 AY Windows 47 Program Enjoy page La 4 Document Es Setting Up K Fina Microsoft Web Publishing 1 Rainbow Technologles 14 InstallShield 14 Acrobat Reader 5 0 LS JUKI PGM 20 1 02 L New Visio Drawing El Visio Professional 2 Help E Adobe La 1 Kai s Power Tools 3 pa Play 1 OrCAD Release 3 1 3 Zip Log ofi 14 SunStar SSP E wy System off S Hii a SAVORS Ex Start Menu Program SunStar SSPZ SSPZ 1 To execute the program click SSPz registered as shown in the figure or double click the execution file in the folder where the program is actually installed 2 As the SSPz program is executed Start Dialog Start Dialog is displayed as in the _ 8 for 2070p ______ left picture Click Start to start the S 3 File Open Exit program Copy Right i 2001 SunStapMachinery All Rights Reserved To finish the program select Exit PERES in the file menu or click the close A C Ctrl N button on the upper right corner wy of the program screen after E cts l saving the files SAL al amp amp print brview MESA PES Fl Exit E 15 Caution The following is an important explanation instruction the user should abide by while usi
6. parm A A y a_l O ON Serial Cable Connection Port for Serial Transmission Cable Feed Adjustment gt Dial PL o Condenser Adjust QU ment Value Display Aone Feed Adjustment Ley Value Ds RA Condenser de SQ Saee Adjustment Dial o_o Dial Control Box Connection Configuration of Serial Cable Connect the serial transmission cable provided with the product between the serial connection jack of the computer and the serial transmission cable connection jack on the dial control box 10 Accessories 1 Install CD Manual 2 Manual 3 Serial Cable System Requirements Prior to installing the program on the user PC check if the system satisfies the following requirements PC IBM PC or Compatible Types CPU Pentium PC or Higher Version OS Windows 98 2000 XP Memory 32M or More 64M or more is recommended Hard disk free space 50M or More Display VGA or Higher Version 256 color SVGA or a higher version is recommended Serial Port Port used for the transmission of the zigzag data file to 2070P Mouse Mouse for Windows Printer Printer that supports Windows STEP Installing the Program Program Installation Unavailable for Windows 95 2000 XP 1 The OS of the computer used for this program should be Windows 98 version 2 Insert the installation CD in the CD ROM and double click the execut
7. It makes a sound of Bi Bi Bi in the speaker while flickering the character of down alalt 55 96 2 When you have done the above steps of No 1 to No 4 you are ready to be transmitted from the SSPz In order to transmit actually click the button of Zigzag Direct Transmit on the standard tool bar and then it transmits to the 2070P If the transmission is on its way the sound of Bi Bi Bi disappears and a long sound of Bi rings once End on the OP box in the 2070P is displayed and then transmitted pattern No is displayed after a while And a message Successfully Transmitted is displayed on the editing display in the SSPz If transmission fails though the message of Transmission succeeded appears on the first trial press the transmit button to transmit again In order to sew the input design return to the sewing mode by pressing the PARA SET key The amplitude is displayed on the displaying unit Please press the PARA SET key one more The amplitude is flickering on the displaying unit Press the ROM pattern key Select a transmitted pattern to sew by using the key Press the PARA SET key again If the amplitude is displayed on the displaying unit it is ready to sew Then you can start sewing afk eit MEA O x 5 to A 9 7 7 0 El o E E 21109 0 aad o Hal Bas SSP for RM elroe ile ROM
8. Make the input value into 1 00 using the key The transfer unit for BT values is 0 25mm The display unit will show the initial amplitude of the BEME BRR 11 10 Press the N2 key The stitch number in the counter will be displayed as n 2 11 Press the key to enter N_3 which is the subsequent stitch number and enter the amplitude value of the N_ 3 And continue to enter the input code list values by repeating the above steps 4 through 7 ES 0 7 0 a As the last stitch number on the above pattern code list is N_46 the counter should display n 46 if all the input code list values are inputted through the above steps 12 Press the N1 key when the input works are done Upon pressing the N1 key you will see End in the display unit After a buzzer sounds and End is displayed in the display unit tt goes back to the beginning of the input process Step 2 Select Pattern Number 13 If you want to input another pattern increase the pattern number and repeat the above steps 14 If you are going to sew the inputted design press the PARA SET key to get back to the sewing mode O The amplitude is indicated in the display unit p A O 15 Press the ROM pattern key 16 Select the inputted pattern to be sewed using the and keys 17 Press the PARA SET key again If amplitude is displayed in the display unit you are read
9. Stitch Off lt 4 Hides all stitch points on the screen Stitch On E als all hidden stitch points again on the reer ae A Measure the distance between two stitches Pt en w Provides information on selected sewing data Replay Tool Bar Replay Tool ES NA Sr Displays and selects the sequence of the sewing data created on the screen In the case of edit it displays the sequence of created sewing data points First Pointer Sai Previous Last 4 Next be po First Selects the first data group Edit Moves to the first point Selects the previous data group Edit Moves to the previous point Selects the next data group Edit Moves to the next point Selects the last data group Edit Moves to the last point Information Tool Bar Information Tool Bar Tetanstiton fo fabsoute gt 38 fo fo sttenLengh po Displays the total number of stitches of the created sewing data information on the location of data inputted on screen in absolute or relative coordinates and distance measured between two stitches using its measuring function Total Stitches Total Stitch la Displays the total number of stitches displayed on screen Absolute Relative Absolute x fo al fo Displays the absolute relative coordinates of the inputted stitch Stitch Length Stitch Length a Displays the distance measured between two stitches Sewing Command Tool Bar Sewing Camm The Grid Line function disp
10. USER S MANUAL FOR DESIGN INPUT KM 2070P 1 FOR AT MOST USE WITH EASINESS PLEASE CERTAINLY READ THIS MANUAL BEFORE STARTING USE 2 KEEP THIS MANUAL IN SAFE PLACE FOR REFERENCE WHEN THE MACHINE 1 Thank you for purchasing our product Based on the rich expertise and experience accumulated in industrial sewing machine production SUNSTAR will manufacture industrial sewing machines which deliver more diverse functions high performance powerful operation enhanced durability and more sophisticated design to meet a number of user s needs Please read this user s manual thoroughly before using the machine Make sure to properly use the machine to enjoy its full performance The specifications of the machine are subject to change aimed to enhance product performance without prior notice This product is designed manufactured and sold as an industrial sewing machine It should not be used for other than industrial purpose SunStar CO LTD Contents Design Input for KM 2070P 6 1 Design Input for KM 2070P 7 m Serial Transmission Method Using SSPz 7 m Direct Input of User Generated Codes 7 m Provision of User Requested Designs by Sunstar 7 Guidelines for Using SSPz 3 1 Before Using
11. e Back to Initial Setup Condition T Initializes all the setup values established e above into initial values OK Applies the inputted values Cancel Finishes the Stitch Points Layout Setting dialog Circle Point Setting 3 Copy amp Paste Copy Paste We are familiar with the above functions to some extent Almost all the application programs like graphics programs and word processors support these functions This program provides user friendly methods to use thes functions There are sewing data like the following picture in the edit area Select the desired data to be copied Copy the selected data by either selecting the Copy button in the Standard Tool Bar or pressing the Ctrl C keys at the same time Once copied the selected sewing data come to have dotted outer lines the mouse pointer and left clicking on the desired location And you will have a small circle centering 3 Establish the location to paste the data by moving p on the selected location Paste the copied sewing data by either selecting the Paste button in the Standard Tool Bar or pressing the Ctrl V keys at the same time And you will see that the sewing data are pasted as in the above picture 49 Pattern Data Input Output The Save O pen Files function allows the user to save newly inputted patterns or to read saved pattern data Save Open Files e
12. BT it needs to be transferred as much as 2mm which is the transfer amount between the y axis BT and the coordinate value of the x axis at the location which will be started at the next step The actual BT input value of the y axis is 2 00 And then it is to transfer to 3 As the value on the x axis is 2 and the input value of the BT transfer on the y axis is 2mm 0 2 2mm because it transfers from to the actual input value of the reverse transfer on the y axis becomes 2 00 Here you can find that the movement of the BT transfer amount transfers as a pair with the coordinate value of the x axis that follows Now you can go on calculating each of the coordinate values using this method to get the transfer amount of the BT step motor on both x and y axes needed for subsequent sewing works The following values are of the pattern input code list generated by using the actual absolute coordinate values of the above pattern and SSPz If you carefully examine the sewing direction in the above figure you will understand how the values of the pattern input code list are generated 1 0 00 2 00 2 0 00 0 00 3 2 00 2 00 4 0 00 0 00 5 2 00 2 00 6 0 00 0 00 7 2 00 2 00 8 0 00 0 00 9 2 00 2 00 10 0 00 0 00 11 0 00 2 00 Actual values of absolute coordinate data Sr ee a ON O ee E a ee gt A O ae em E ME ME JO AN ge MZ me a E NFP PPP PP PP Pp SOO NOUT See
13. Data Order Min Max Sewing Range Grid Line Setting Sewing Range About SSPz Sewing Data Range Stitch Points Layout 4 Tool Bar Tool Bar provides a variety of functions provided in the menu in a user friendly manner by buttons And Sub Tool Bars are included in it It displays information on various condi tions including for example input coordinates displayed on Status Bar and the total number of created stitches Standard Tool Bar standard Tool Bar EERIE Provides functions of those items related to file input output Open Files Reads saved data files Save Files mj Saves data existing on the edit screen Save Zigzag a Saves data for zigzag txt Transmit Serial Data Performs serial transmission of zigzag data ROM zig to the 2070P machine Design Direct boH Transmission of the zigzag design to the 2070 Transmission LF machine through the direct serial Copy Ep Copy the selected data Paste A Pastes copied data Prints data existing on the edit screen copy the sl selected data Delete All a Deletes all the data existing on the edit screen 21 22 Measuring Tool Bar Measure Tool epee Pee aes ee es Provides functions to change selected sewing data into various types Enlarge Reduce Enlarges or reduces selected data Move Moves selected data Rotates selected data a Rotate t ula Turns selected data into a mirror image Mirror als
14. Data l O Edu s SERIAL m Serial Transmission of ROM Data Connect the serial transmission cable between the computer in use and the dial operation box of 2070P Refer to the Principal Parts section for connection Set up the ready state to transmit so that the 2070P can be transmitted as above No in Item of Serial direct transmission of the zigzag design before transmitting Select Serial Transmission from the menu which is a submenu of Serial Transmission of ROM Data 3 Upon selecting it you will see the Serial Communication Dialog box on screen Each of the functions is as follows Port Setup You need to set up the communic ations port of the connected serial cable for serial data transmission to the computer in use The number of ports may vary depending on the kind of computers Usual desktop Are computers are equipped with two mt ports while notebook computers 4 have only one Of course since the current Serial Transmission tool El Is used in connection with 2070P ad aan el only COM 1 is to be used A o E i gt weston Eee 7 As is shown in the Serial PortSetup Dialog picture you do not need to change the values for each item amet Fe cua Leave the default values as they Fanny Bl Prin Pitty ai i are since each of the items is set up accordant with 2070P Port Connection Check This function c
15. Node ok sewing data node 20 Data Configuration Data Construction The patterns of data consist of only point stitches The following figure shows created data for a simple flower shape In the case of the 2070P zigzag machine the boundary value on the y axis is infinite However the maximum boundary value on the x axis is 8mm The user should keep this boundary value in mind when creating data Edit Frame Point Stitch A mo EE a Origin Edit Frame Date Creation 21 2 Sewing data User s Stitch Input o _ The user can directly input stitch by stitch The above figure shows the sewing data inputted by User s Stitch Input 3 Jump Data If two different sewing data exist there always exist jump data between the two data The jump data is automatically created As in the left figure showing data creation a jump is always created automatically from the origin when the user initiates sewing data The figure also shows that jumps are automatically created between each section of sewing data When sewing data is deleted the jump data is automatically deleted and then a new jump is created between the deleted sewing data based on the adjacent sewing data that exist before and after the deleted sewing data Jump data cannot be edited and always take the shape of gray dotted lines As above mentioned do not create other jump data except the one located at the initial
16. O 0 0 0 0 0 0 0 0 0 0 Existence of BT Coordinate Values of Transfer on the X axis Transfer Values on the y axis 0 0 2 a o 2 00 20 2 a a 2 20 d Transfers based on the pair of the values on the x and 00 6 y axes ee 20 1 2 v7 Je a e 20 1 2 00 0 0 2 00 0 Values of Pattern Input Code List 63 64 STEP 3 Method for Direct User Input of Design Codes N 1 0 4 0 N 2 2 00 Sewing Direction a 0 oan E N 5 0 4 0 Je N 6 0 00 N 7 2 0 Je N 8 0 0 30 N 9 0 2 0 6 N 10 0 00 L Stitch Pattern Pattern Input Data for 1 Cycle Input Pattern Code List The above L Stitch pattern is the value of the design input code list generated by using SSPz Now we are going to explain how to input directly with above values 1 Press the NT and keys at the same time with the power on After the thread is cut Prog abbreviation of P rogram ming will be displayed in the display unit i 2 Press the N2 key The numbers of the ROM pattern and pattern type will be displayed in the display unit Ex 9 01 i 3 Selectthe number of the pattern type to be inputted by using the and keys Ex 9 01 The numbers available for pattern types are 1 through 99 Here we are going to input a design at 9 01 w ES 4 Press the N2 key The stitch count
17. Vertical Setting Value Maximum 2 5mm Grid Division Dialog lx Minimum 0 25mm id Divise Seti Unit 0 25mm Horizontal mm i a vaca imi Caneel The Grid Line Setting Dialog box is displayed Enter the desired value in the Horizontal and Vertical input boxes and click Yes And you will see that the grid lines are reestablished according to the inputted value fe Pod bil pa en bienne Spline aa ja CELLET AI pai y si y a pe qa da E ie a a Eu fia r Pa A ta DET A AAA AL 41 42 Fa a STEP STEP Enlarge Reduce Rotate Move Mirror The Enlarge Reduce Rotate Move and Mirror functions are all applied on the basis of the center of the sewing data created in the edit area Enlarge Reduce This function enlarges reduces selected sewing data O Select the sewing data to be enlarged or reduced Select the Enlarge Reduce button On selecting the button ae Ge you will see that the Enlarge R educe Dialog box Is displayed ENE on the screen The function of the dialog box is as follows Enlagement Reduction Dialog X X Range Determines the enlargement Enlarge Reduce ratio reduction range on the x axis X Range 200 E x l 4 i Y Range Determines the enlargement Fase pm z es reduction range on the y axis The unit of the settings is 100 When the value is 200 the data is enlarged by 100 And when the value is 80 the data i
18. agers box as the following The current value of the Sewing Data and Sewing Point Range Setting settings is the default value al El Sewing Point Selection Range fi gt on Sewing Data Selection Range If this range value increases the sewing data selection range becomes big Thus sewing data are automatically selected even when the mouse pointer is clicked around the sewing data point On the other hand if the range value is decreased the desired sewing data point should be selected more accurately Sewing Node Point Selection Range The setup value of the sewing point selection range functions in much the same way with sewing data selection range The difference is that this function Is designed for the selection of sewing nodes points While the setup value Is increased the nearest point from the mouse pointer is selected As shown in the picture the setup value determines the range in which sewing points can be automatically selected This function provides convenience for the user when itis used appropriately If both Sewing Data Selection Range and Sewing Node Selection Range are set to 0 when editing elaborate points points can be inputted and edited with higher accuracy PUNEO Sewing Point Setup Range 41 m Stitch Points Layout This function allows the user to change into various forms the shape of sewing data created in the edit screen Select Stitc
19. itted and press the Open button Ze Lastly press the Data Transmission button to transmit the selected zigzag extension design to 2070P The displaying items on the OP box in the 2070P after transmitting data is equal to those for transmission methods of Zigzag direct transmission method Ifa transmission has been done successfully a message of Successfully transmitted is displayed after transmitting Guidelines for User Input of Pattern Codes These guidelines explain how the user can directly input created pattern data codes into the operation box in 2070P How to Use ROM Patterns User Patterns This explains how to read and use an extension ROM pattern design 2 ol 92 o3 o4 o5 o 6 7 o8 o 9 TAII T SPEED e O No O O 5 O soon Y VUTO 28 oe e n unr uzar N IN J MADE IN KOREA 1 Press the PARA SET key with the power on o STEP The amplitude at the display unit will be Indication Device flickering 2 Press the ROM pattern key N The numbers of the ROM pattern and o pattern type will be displayed in the display 2 lt gt unit o Ex 9 01 H uN lt or 3 Select the number of the pattern type to be a used by using the and keys i ERME S Ex 9 05 e 2 The numbers available for pattern types are 1 through 99 k BBE 4 Press the PARA SET key The amplitude will be displayed in the display unit If the amplitude is flickering pres
20. of the Dial O P at 0 Insert a piece of paper and check to see if the paper is being pushed back and forth when manually turning the pulley Is the paper NO being pushed back and forth 1 Perform the basic adjustment by adjusting the starting point sensor film position 2 Set the starting point again by repressing No l pattern key YES lt To set at name stitch gt Value of the E side 99stitch Value of the F side O stitch Auto function is on Insert the paper and press the pedal to start sewing 99 stitches will be sewn Readjust the starting point sensor film position according to the degree of paper being pushed Is the paper 1 Perform the minute adjustment by adjusting the eccentric pin being pshed back and forth of the feed regulator 2 Reset the starting point by pressing NO 1 pattern key 3 Perform the sewing again 1 Select No 7 L stitch pattern set the vertical stitch at 4 and the horizontal stitch at 2 2 Conduct the sewing test against the 10 basic expanded patterns Is the sewing status is good NO 1 Perform the minute adjustment by adjusting the eccentric pin of the feed regulator 2 Reset the starting point by pressing No l pattern key 3 Perform the sewing again YES The setup of the KM 2070P B T starting point is completed 9
21. side figure in the above represents a picture inputted with the whole of one pattern design One thing the user needs to be careful about in making the design of a pattern is that the locations of the starting and ending points should be on the same line on the y axis due to the characteristics of a zigzag machine That is to say it is because the same pattern is repeatedly connected atthe points This should be considered when creating a design The following tables are the data list of absolute coordinates inputted with the above pattern and the input pattem code list No Coordinate Values No Coordinate Values ra 1330219 a6 270 480 EN 1 00 1 10 0 50 3 00 0 50 3 00 1 00 1 10 8 110 490 20 230 040 9 027049 21 330 210 3 40 3 10 3 10 4 10 2 70 1 30 1 80 5 60 0 90 0 30 0 00 6 50 3 Once the design of a pattern is inputted as above save it by pressing the Save button This is to save a general pattern design only Of course ROM zig the serial transmission data is generated at the same time This Should be saved first to save the design list file for 2070P Refer to the Pattern Data Input Output section for how to save files Save the file by the name of example Go to the folder where the file is saved to see if the example file is actually saved If successfully saved there should be the example file and ROM zig file
22. will show 0 00 which is the initial amplitude of the selected stitch number Since the existence of BT was set up in the previous step the BT transfer value needs to be entered for the second amplitude value The value of the data input code list for N_2 is setup as 2 00 Make the input value into 2 00 using the key The transfer unit for BT values is 0 25mm 10 Press the N2 key The stitch number in the counter will be displayed as n 2 11 Press the key to enter N_3 which is the subsequent stitch number and enter 4 0 which is the amplitude value of the N_ 3 input pattern And continue to enter the input code list values by repeating the above steps 4 through 7 oe f y T Indication DERE l l y l y l i y y l 65 66 As the last stitch number on the above pattern code list is N_10 the counter should display n 10 if all the input code list values are inputted by the above steps 12 Press the N1 key to finish inputting works at n 10 pon pressing the N1 key you will see End in the display unit After a buzzer sounds and End is displayed in the display unit it goes back to the beginning of the input process Step 2 If you want to input another pattern increase the pattern number and repeat the above steps Select Pa rh e 1 E e a e rey E rn Number O c 13 If you are going to sew the i
23. 70P The file format to be saved is txt instead Even though you enter tree for the above picture the file will be saved as me eA ls a tree txt which has a different extension When the file is saved by the above method there will be 3 files in the data folder Three of these saved files are as follows This is a file that has been saved in the existing ues SSP shared with pattern machine Spa This is an input data code list file for 2070P Not applicable to the existing 2070 ROM zig This is a serial transmission data file for 2070P In case of the tree txt file the file list can be viewed by double clicking on it even without SSPz Of course the user can directly input designs in 2070P with this file list Refer to the Example section for further explanation Open Files Reads saved pattern files and displays them again in the edit area Select Open from the menu tool bar 2 Upon selecting Open you will have the Open dialog box on screen HAD Data z 8 al e De os Tree ao ap f HA HESA 3 y Select the tree file previously saved and press the Open button Then the previously saved pattern will be displayed again in the edit area If you want a modification use the Sewing Edit Tool function button to modify the data displayed in the edit area And then save the file again 2 Port Setting of User s Computer Be sure
24. Press the Save 2070P button to save the input pattern list file for 2070P Once the save dialog box is displayed enter example at the location of the previously saved folder and press the Save button And check to see if a example txt file is saved in the folder Refer to the Pattern Data Input Output section for Save 2070P Now that all the processes to be saved for 2070P are done determine how to input the design and input the data code using the selected method As aforementioned there are two methods with which the user can input the data Input P attern Code List N 1 0 0 0 N 2 1 00 N 3 0 1 8 N 4 1 50 N 5 0 3 1 N 6 2 00 N 7 0 3 3 N 8 1 75 N 9 0 23 N 10 1 50 N 11 0 1 0 N 12 2 00 N 13 0 0 5 N 14 2 00 N 15 0 Weal N 16 0 00 N 17 0 2 7 N 18 1 75 N 19 0 3 4 N 20 1 75 N 21 0 2 7 N 22 1 00 N 23 0 0 9 N 24 0 50 N 25 0 0 9 N 26 1 00 N 27 0 2 7 N 28 1 75 N 29 0 3 4 N 30 1 75 N 31 0 2 7 N 32 0 00 N 33 0 1 1 N 34 2 00 N 35 0 0 5 N 36 2 00 N 37 0 1 0 N 38 1 50 N 39 0 2 3 N 40 1 75 N 4l 0 3 3 N 42 2 00 N 43 0 3 1 N 44 1 50 N 45 0 1 8 N 46 1 00 mo mae sv gt se SF ad ps Ei Example Example EXAMPLE FROM zig A E 69 70 STEP First Serial Transmission Method by Using SSPz Second Direct User Input of the Code The first
25. alue 6 Double click the example txt file in the example file and enter the value of the x axis at N_1 on the data input code list by using the and keys oe The input amplitude range by means of the and keys 5 is as follows Max Amplitude Range 5mm 5mm when using a needle plate designed for 10mm means the left side from the origin Since the value of N_1 has a BT code and the first value is 0 0 input the value as it is without making a change using the and keys However because the BT code defines the transfer distance input value of the y axis that follows whether it a exists or not should be indicated N_1 o 0 0 0 1 8 1 50 0 3 1 2 00 i 7 Press the N1 key 9 The BT code will be displayed in the display unit Press the N2 key to save the input aj MAC t 0 0 and the indication of BT existence will be saved for BT Indication the input value of N 1 and the display unit displays the same stitch number n 1 again 8 Press the key to enter N_2 which is the subsequent CNN stitch number The stitch number in the counter will be displayed as n 2 9 Press the N2 key to enter the amplitude value of N_2 selected stitch number Since the existence of BT was set up in the previous step the BT value needs to be entered for the second amplitude value The value of the data input code list for N_2 is set up as 1 00
26. ated a jump is automatically created from the origin to the first point Therefore you should not create another jump data except the first jump when making a design Correct Design Wrong Design 4 In connection with using the Zoom In Zoom Out tool a E E TA message box will be displayed and the screen will not pl get bigger any more if you zoom in the screen beyond Out of zoom range the maximum If you continue to zoom in the screen under this situation you may lose the data existing on the screen Thus in this case you need to avoid y E zooming in and to zoom out the screen using the Zoom Out tool At the same time if you zoom out the screen until the on screen data is illegible the program may stop Thus you need to avoid zooming out to an excessive extent Please keep this suggestion in mind EA A hs I a i T i Ta E O Configuration of Program Function Program Operation Flow The flow chart below illustrates the general flow of the program from Start to Finish Create New Edit windows Read Sewing Data to Edit Determine Sewing Sizes at Discretion Create Desired Designs Edit Design Save Design Serial Direct Serial Transmi Design Data Transmission of ssion of ROM SSP Pattern zigzag design data ROM zig Shared ZigZag Input Data List txt file Serial Transmission 18 2 Edit Window m Edit Window The followin
27. ated at the upper right corner 45 46 2 Sewing Setup Setting Up the Sewing Range This function sets up the sewing range of the edit area Select Sewing Range in the menu which Is a aij E i Ll i submenu of Sewing Settings MES Ronin ets Ll ee 3 Sewing Setting Er u Select Control Stitch Point Layout As you find in the Sewing Settings Dialog box X and Y are set up as 8mm and 100mm respectiv Sein EA Si ely The default sewing area established in the Length E mm start screen is set up on the basis of these values sewing setting Dialog Length 100 min After setting up the X and Y axes as 10mm and sewing setting Dialog 40mm respectively click the Yes button And you Sewing Edi Size will see that the sewing edit area has changed as DaN ic o in the picture The sewing data stay in the same hee T way as before without changes as the area is changed Cree The following pictures show the before and after of the setting up of sewing edit area Before Setting Up a After Setting Up Eo Setting Up the Sewing Data Range This function sets up the range to automatically select data when selecting sewing data Select Sewing Data Range in the menu which is a submenu of Sewing Settings ut Device Control Setting fs 3 Sewing Setting select Control Stitch Point Layout Upon selecting the submenu you will geta dialog ss
28. can k fi rf Muih Lege 0 AP 3 a to gt 21 ied ba eres ind as AA ia RASA A 3 Left click the mouse And the screen gets reduced on the basis of the clicked point 40 STEP STEP Zoom All Zoom All is used to adjust the screen size to the edit area Select the Zoom All button gt ETE pa lew Las JS Gabi jai SUETRD ea A 101 CE ans e A A A E APN de a S amp E Paitin Ainii Pi Sines apta 1 a O Enlarged or reduced screens are adjusted to the edit area Grid The Grid function displays the screen with grid lines whose intervals can be adjusted by the user This function is very useful when inputting or editing data The default value of the interval is 1mm both vertically and horizontally D Select the Grid button fie OH tae Est 10m ro AA Ta ie fair ERE EARA ary u ee RF gt Ta o A ne Palit ninia Fi Ara Carita 10 A A Upon selecting the button you will see that the edit area is displayed on grid lines whose interval is 1mm X 1mm 8 Select View from the menu bar located at the 7 e E upper end of the program and select Grid Line renee Setting at the bottom of the full down menu y Status Bar Tool Bar Dialog b j j Control Tool Bar Horizontal Setting Value RN oh i Maximum 10mm Zoor Taal a i Zoom Out Minimum 0 1mm drt nit 0 LmMm Stitch Replay Unit 0 1 Min Max Sewing Range Grid Division Settin
29. cording to the selection of the direction keys Once you get the cursor on the exact location where you are going to input hit the space bar to input the data The cursor is designed to move by 1 pixel 0 1mm when controlled by the direction keys You can change the movement distance by selecting the Key Movement Settings among the Input Device items on the Menu If you want to make it move by 1mm set the settings for 10 pixel As is mentioned above however this is possible only when the window screen is maintained in the same way as the initial settings In the above picture the Monitor Resolution item is used to set up the resolution of the monitor You don t have the set it up since it is established automatically Right click the mouse when you want to finish inputting data The End key on or around the direction keys plays the same role with the right button of the mouse This is useful for elaborate works such as editing stitches Data Input by Using the Numeric Keys on the Keyboard Emmm EIE TAT ONE Keyboard Input Dialog 7 feasure Input Device Control setting Hel i A AE ee Est BackSp evboard Input Add Move A A Em vje 2m key Resolution Enter Close select User PE b q A For using the numeric keys for inputting data click User s Point Input by Function Buttons on the Sub Tool bar And select Keyboard Input from the Input Device item in the menu Upon selecting it you will see the Keyboard Input Dial
30. d assuming that a user has already made the serial transmission file ROM zig Please refer to Part of Data Save concerning the generation method STEP Serial Direct Transmission of the Zigzag Design Transmit the data immediately which currently exist in the editing display A design existing in the display can be transmitted to the 2070P directly if a user has already input an arbitrary zigzag design on the editing display as shown in the Figure Connect the serial transmission cable to a currently used computer and to the dial operation box in the 2070P Please refer to Item Main constitution concerning the connection method a N 1 At first you should make the 2070P ready to receive designs on the editing display from the SSPz before transmitting designs on the editing display to the 2070P The steps to make ready are as follows 1 Press the N1 key and the key simultaneously while the power Is on Prog abbreviation of programming in the displaying unit is displayed in normal state after trimming 2 Press the N2 key It displays ROM Pattern No and Pattern Shape No on the displaying unit Ex 9 01 Another No is possible to display 3 Select a pattern shape No to be transmitted by using the key Ex 9 09 Pattern shape No s to be input It is possible to input from No 1 to No 99 In this example It is ready to receive designs in 9 09 4 Press the N1 key
31. d Move Dialog Ok Cancel as in the picture 4 Select the desired sewing data node to add You can use the mouse or direction keys Selected sewing data node are displayed in red And the coordinates of the selected node are displayed in the Keyboard Input Add Move Dialog box as shown in the above picture 5 Enter the coordinates of the sewing data point to be added in the x and y axes Key Input Add Move Dialog Ok Cancel 6 Click Yes to add the inputted coordinates oe e I 1 1 Ve ce Editing by the Sequence of Stitch Creation This function displays the creation sequence for each stitch of sewing points and allows stitch edit at the same time 1 In case sewing data are created as in the picture take the following steps to get the sequence of created sewing points displayed oe e e s 2 Select the Move One Stitch Sewing Data or Delete buttons The function button becomes sunken when selected eit y ma Ps y Taa ri oe ji A aD i F de id ER E 3 After selecting the button select a corresponding sewing data stitch The selected sewing data stitch will be displayed as a red dot as shown in the picture 35 EIS 1 E t i E h Si m qe E 1 gt ti Y 1 6 8 de y j I sal e 36 4 Move two stitches to the next stitch of the currently selected stitch using the Replay Tool ba
32. dl m Save Files S 3B S E Saves all the data inputted in the edit area up to now TA ES Way meer i a Lo pol Falling Help TELLEN TA s 4 A W fora iaa E W ai Senei f oh A Fiel iA PAm diii diiit Hinge E nit l A i d TER iM L Ifa pattern design like the following is created in the current edit area select the Save E button to save the created pattern design Upon pressing the Save button you will hear the floppy drive working and EEES zix an a AAA subsequently have the Save as dialog box displayed on screen in a moment Specify the save path enter for example tree as the name of the file to be saved and press the Save maasw lt meE gt o button Taaa James j The save dialog box does not ESR AN disappear after you save files by p Jat z aA SPa pressing the Save button This is to save the ROM zig data of 2070P which is automatically saved as in the picture Therefore the Save button aa asw TE needs to be pressed again to save the mesm mi es p g de san armes mee tree data 0 91 92 6 AA Les saoe m Save 2070P Files In order to save 2070P files you need to perform Save files first Otherwise files for 2070P cannot be saved Please keep this in mind The method of saving 2070P files is the EEEE Ely same with that of Save files Press J20 uate 8 9 elle the button in the shape of 20
33. e of the sewing data Al is selected in the picture Selected node are displayed in Suit red fy 3 Move the mouse pointer to the location where sewing data node are to be added and left click the mouse continuously And you will see that the inputted data are added on the basis of the first selected node 4 Right click the mouse to finish the function Upon clicking you will see that the last point inputted for addition is automatically connected with the next point of the previously selected sewing data point When you make the generated sewing data transfer by using the mouse point click the mouse point at the final destination after selecting a node of sewing data However if there are already arbitrary sewing data having equal coordinate values at the position to transfer it will not make a nod transfer by using the mouse point In this case you can make the transfer by using the direction key in keyboard instead of the mouse point 33 34 STEP aaa Loose eee ee eel 1 Select the Add Sewing Data Node button to be used on the Tool Bar 3 Upon selecting it you will see a dialog box displayed m Editing with the Keyboard Direction Key Basically Editing with the Direction Keys works in much the same way with editing using the mouse The difference is that this method uses the space bar instead of the left button of the mouse and controls the mouse pointer using the dir
34. e port GOM1 Entry tetorraticn Ganeral Port setup Driver Source BlliSevond Mi Data iit 8 Y Panas 3 Slop bit 1 y Gurren Canal mardwere z Standard restorarorn High Rank cua 53 94 Serial transmission of the zigzag design and the ROM data It transfers the 2070P zigzag design made by a user and the ROM data ROM zig are transmitted to the KM 2070P machine through the serial transmission tool A general flow chart for the constitution of Direct serial transmission of zigzag design and Serial transmission of ROM data is shown in the following Figure Flow of Transmission Design New Edit Reads sewing data Window Created to be edited _ pesed Desn nes Seung Direct Transmission Created discret of Inputted Design Scones on Screen Direct Transmission dl Design Edit Transmission of Design by Serial Design Data Transmission Program Zigzag Input Data Shared with SSP List txt file pattern p ILLI gt ao ROM zig file a extension Ziazag Serial esign Transmission Data ROM zig file i roster E o bite gt 4 Dial OP Serial Cable Connection F s Dn In the following each of the methods of Serial direct transmission of zigzag design and Serial transmission of ROM data is explained And the method of Serial transmission of ROM data is explaine
35. ection keys In this method press the End key to finish the function instead of the right button of the mouse 1 Select the function buttons Add Delete Move to edit in the Tool Bar 2 Move the mouse pointer to the edit area and press the direction keys Upon pressing the up down left and or right direction keys you will see that the mouse pointer moves accordingly 3 Locate the mouse pointer on the desired sewing data node and press the space bar to select the data node 4 After taking appropriate actions depending on the function buttons Add Delete Move to be applied apply the function by pressing the space bar once again 5 Press the End key to finish the function a Oe Ee ee PSE ee EPS E PEE pe Ee OE Se Pa pI EER aE ge eg a aa pe ag ag hah Re fa Re ge ar a Rage RR RR ay ED eae Ree gS Sy Sa aie ee nea ET ae I Os eee When adding data in the case of editing with the direction keys the program does not support continuous addition by means of the mouse pointer I ee et i el Editing by Input Value of the Keyboard Editing by means of the input value works in much the same way with the above mentioned methods This method supports the Add and Move functions only Add Sewing Data Node Insert El y 2 Select Keyboard Input Add Move among the em Input Device items of the menu as in the picture Ka key input Keyboard Input Add Move Key Resolution Select User PC d Key Input Ad
36. eee id 59 OPEN AMES ARA a RR ROA Aa 52 2 Port Setting of User s Computer 53 3 Serial Transmission of the Zigzag Design and the ROM Data 54 m Serial Direct Transmission of the Zigzag Design 55 m Serial Transmission of ROM Data 55 10 Guidelines for User Input of Pattern Codes 59 1 How to Use ROM Patterns User Patterns 60 2 Structure of Input Pattern Data 61 3 Method for Direct User Input of Design Codes 64 4 Example so c2euos 2 eee eee eee he ada 67 5 Actually Sewed Sample Design Basic Patterns 73 11 Method of setting the starting point 74 Design Input for KM 2070P Currently there are three methods available for design input using KM 2070P Please refer to the following methods for an easier input of designs NO Examples of Inout Methods 1 Serial Transmission Method Using SSPz refer to p 6 2 Direct Input of User Generated Codes refer to p 6 3 Provision of User Requested Designs by SunStar refer to p 6 Design Input for KM 2070P Support 1 SunStar Serial Transmission of Pattern Designs Using SSPz the Input Program Designed for the Exclusive Use of KM 2070P Support 2 b Download at the M C by Method of Seria
37. er of the pattern will be displayed in the display unit Ex n 1 Stitch Counting Number for the First P oint sone The numbers available for the stitch counter are 1 through 256 Stitch counting numbers can be increased or decreased by pressing the or key This is useful when the design is modified g 0 5 Press the N2 key The amplitude of the stitch number displayed in the counter will be displayed The input value of the x axis and the transfer input value of the y axis are inputted here for the amplitude value 0 6 6 Using the and keys enter 4 0 which is the value of the x axis atN_1 on the data input code list The input amplitude range by means of the and keys is as follows Amplitude Range 5mm 5mm when using a needle plate designed for 10mm means the left side from the origin The amplitude of the stitch number is displayed as 4 0 in the display unit Since the value of N_ 1 has a BT code press the N1 key The BT code will be displayed in the display unit Press the N2 key to save the input 4 0 and the indication of BT existence will be saved for the input value of N 1 and the display unit displays the same stitch number n 1 again Press the key to enter N 2 which is the subsequent stitch number The stitch number in the counter will be displayed as n 2 Press the N2 key to enter the amplitude value of N_2 The display unit
38. g figure shows the entire configuration of the program and edit window All the input and edit works are executed in this window I L 2 ge ee ee ee ee eee ee ee ee ee ee ee e e e e e e e l Edit Screen _ a L se r Mouse Coordinate Stauts Bar Chick fe amam dn en pai nra a bonim bor Mause Coanda LM 1 80 CAP NUM When the mouse is positioned on the Menu Bar Sub Tool Bar or Tool Bar a message is displayed on the Status Bar to inform the user of the next step You can operate the program by left clicking the edit window to input data in it according to the message and by creating or editing data depending on the execution of the Dialog Box Currently messages displayed on the Status Bar are partially supported 20 3 Meun Bar Menu Bar includes the following functions Menu Bar includes each of the Tool Bars and the entire function items of the program Refer to the following tool bars for detailed information Close Serial Transmission of Copy Save ROM Data Paste Save Zigzag Enlarge Reduce Print Serial Direct Rotate Print Transmission of Zigzag Move Preview Design Mirror Printer Setup Exit Measurement Input Device Tool Bar Measurement of the Keyboard Input Status Bar Length between two Keyboard Input Insert Move Tool Bar Dialog Stitches Setup Keys Control Bar Select User PC Stitch Point On Off Zoom In Zoom Out Sewing Range Information on Window Device
39. h Points Layout in the menu which is a submenu of Sewing Settings Upon selecting the submenu you will get the evice Control Setting 3 Sewing Setting Y Select Control stitch Point Layout setting stitch Point Layout Stitch Points Layout Dialog box displayed on Pes the screen Stitch Point Type Circle Point Stitch Point Type steh Port Siza 2 Using this setting the user can set up the type ae a of stitch points There are two types of stitch points The first one is a cross point that looks Ve like a cross The second one is a circle point ete Eas RED And this is set up as default value Stitch Point Size Using this setting the user can set up the size of stitch points The smaller the number is the smaller the size of points becomes This is useful especially when complicated data are edited When the size Is set to 0 points are not displayed Stitch Line Size Sets up the thickness of the line between stitch points Stitch Point Color Sets up the color of stitch points Stitch Line Color Sets up the color of the lines between stitch points Base Line Setup On Off Establishes or waives a centerline on the edit Center Line Onioti e On t ot Jump Stitch Ont 1 Om fof Initial Setting Walie Cross Point Setting screen o ar ee a Tz e e Jump Line Setup On Off dl S A Establishes or waives jump data existing on e A the edit screen oe o
40. hecks if 2070P and the serial transmission program of SSPz are connected well before beginning serial data transmission If 2070P and SSPz has been checked suceessfally port a message of Successfully Connected is desplayed Transmitting Data Shows the extension design data code transmitted to 2070P 1 Download Zigzag Design will be displayed on the window after transmitting data code Receiving Data Shows the extension design data transmitted from 2070P 1 ZigCode 55 Completed to receive order 2 ZigCode 66 Completed to receive data normally 3 ZigCode 77 Completed to execute order Loading zigzag files Reads ROM zig extension design data for 2070 to be transmitted Data Transmission Button Transmits the extension design data for 2070P to 2070P Exit Terminates the Serial Transmission Dialog box 57 98 At the Serial Port COM 1 COM 2 item leave it as it is COM 1 and click Port Connection Check to see if itis well prepared for communications with 2070P When If itis ready to transmit normally a message of Successfully connected is displayed When tt is ready for transmission ss x ia aoe of alaale gt click the Loading zigzag files button to read the extension design files ROM zig Upon pressing the button you will have the Open dialog box on screen as follows ANO Fn Ul arw _ 8 Select the zigzag file to be tansm masa
41. ion file marked with Setup in the Disk 1 folder Disk Pile Es File E Edit E View 4 Move G Find 9 gt Address CI Cota Installatione Sun Star SSP Link Disk CI CE data datal data kernel es layout bin a a E Setup Setup Setup setup ins 3 Upon getting the InstallShield Wizard window displayed click Next InstallShield Wizard Welcome to the InstallShield Wizard for SunStar SSP The InstallShield Wizard will install SunStar SSP on your computer To continue click Next Cancel 4 When the software license agreement window is displayed click Yes 12 License Agreement Please read the following license agreement carefully 5 The Choose Destination Location window is displayed If you want to change the location select your desired folder by clicking the Browse button And click Next for the nest step InstallShield Wizard Choose Destination Location Select folder where Setup will install files alla 6 Program installation will start on the screen Click Finish when the installation is completed InstallShield Wizard InstallShield Wizard Complete Setup has finished installing SunStar SSP on pour computer Batts Finish Cancel 9 If you can find the installed program registered in the program list of the Start Menu the installation is successfully completed lf the program is s
42. l Transmi ssion of the Generated Pattern Data amp Method for Direct User Input of Design Codes a i SSPz Free Version FEES TRIAL Serial transmission of ROM data l in Input Instruction Manual for KM 2070P Refer to method for direct user input of design codes in Input Instruction Manual for KM 2070P Generation of Patterns Direct Generation Fl of Pattern Codes by the User aL SSPz automatically crea tes the pattern data code list in text file format Generation of pattern codes requires the user s under standing of the mechanical transfer of the presser foot and data coord inates Using the Combination of the Above Keys E al 40 n Input of Pattern Codes Enter the data for each stitch using the input button on the OP Panel referring to the pattern code list generated by the user or SSPz In the case of peculiar designs or those that cannot be input by using the above methods SunStar examines and provides those designs requested by the user Buyers or end users request designs a F SunStar generates requested designs SunStar provides requested designs in an expansion ROM Buyer or End User Guidelines for Using SSPz SunStar Before Using Check the followings prior to setting up the program and components Principal Parts Dial O P KM 2070P 7 Serial Transmission Port Rear Panel of the Computer
43. lays lines in a grid shape on the edit screen F2 Key If Automatic Point is selected instead of Grid Line points are automatically inputted where lines are overlapped 23 24 O Status Bar Status Bar is located at the bottom of the Windows program Information Status Bar The user inputs sewing data stitch by stitch Information Status Bar is located at the lower left corner of the screen It provides appropriate information when buttons or programs are used The above information is displayed when the User s Stitch Input button is selected Mouse Coordinates Status Bar Mouse Coordinate 0 50 240 NUM al Mouse Coordinates Status Bar displays the coordinates where the mouse pointer is located when the mouse moves on the edit area The user can input data using these coordinates Sub Tool Bar The following tool bars including Edit Sewing and Sewing Edit tool bars provide actual punching related functions All the works related with punching are performed with these tool bars for the most part Edit Tool Bar When data are inputted in the current sewing area Edit Tool Bar provides a variety of functions for the user s convenience It provides the Zoom In Zoom Out function that can enlarge or reduce the displayed sewing area And using the Hand tool in it the user can freely move the enlarged sewing area It also provides the Grid Line function which enables the user to easily input data by sh
44. method was given an explanation in the Serial Transmission of Zigzag Design and ROM Data section Here we will give a detailed explanation of the second method OeBGQ0060 o nee e SPEED TUTO 28 oe 00000 lt lt MADE IN KOREA Now we are inputting the values of the pattern input code list for the above example txt file 1 Press the NT and keys at the same time with the power on After the thread is cut Prog abbreviation of Programming will be displayed in the display unit 2 Press the N2 key The numbers of the ROM pattern and pattern type will be displayed in the display unit Ex 9 01 3 Select the number of the pattern type to be inputted by using the and keys Ex 9 01 The numbers available for pattern types are 1 through 99 Here we are going to input a design at 9 01 4 Press the N2 key The stitch number of the pattern will be displayed in the select pa display unit Ex n 1 Stitch Counting Number for the First P oint Range of Stitch Counter 1 256 Stitch counting numbers can be increased or decreased by pressing the or key This is useful when the design is modified 3 em Number 5 Press the N2 key The amplitude of the selected stitch number will be displayed in the display unit The input value of the x axis and the transfer input value of the y axis are inputted here for the amplitude v
45. ng the program Please thoroughly read and understand the followings 1 This program provides functions with which the user can create and edit sewing data using the direction keys on the keyboard Before using the program you must understand one thing very important which is related with the screen mode The program is set up to automatically configure its window size to your monitor size In the case of inputting or editing data using the direction keys on the keyboard if you execute the program after changing the default window size you will get an unconformity of mapping between the program and the Windows screen Thus it should be noted that if you change the window size of the program the input operation by using the direction keys may not work properly That is you can still input data but the coordinates of the inputted data will deviate from the actual location by 0 2 0 3mm In this case however data input by using the mouse point works well without deviation 2 Sewing data 127 or more stitches should not be created in one pattern When created sewing data are transmitted to 2070P the data of one stitch are divided into the corrdinate value of the x axis and the transfer value of the y axis before the value of the total number of stitches is transmitted Therefore transmitting 127 or more stitches would cause a problem Please keep this in mind when creating sewing data 3 In the case of the starting point when a design is cre
46. nputted design press the PARA SET key to get back to the sewing mode The amplitude is indicated in the display unit E 4 ES E3 15 Press the ROM pattern key 16 Select the number of the pattern to be sewed using the and keys O 17 Press the PARA SET key again If amplitude is displayed in the display unit you are ready to Sew When there Is an error in the stitch data inputted at the program mode you don t need to modify the whole data In case of an error correct the data in question and press the Half Stitch Motion key Then only the modified part will be saved If you press the N1 key instead the data would be saved only up to the modified stitch while the remaining data would be deleted Use caution when modifying data If you have a needle plate designed for 8mm when you determine the amplitude the available amplitude range will be 4mm through 4mm If you set up the amplitude range as 5mm 5mm the needle would move out of the working area and might be broken In this case set up the maximum amplitude as 10mm Refer to the sections 3 6 related to the determination of amplitude in KM 2070P User Manual In case you sew with a complicatedly or arbitrarily created pattern containing many BT codes you may not get a correct pattern if you use the maximum speed for the pattern created in such a way In this case appropriately slow down the speed Example The example gives a detailed explanati
47. og box displayed on screen Enter your desired coordinates in the x and y axes and click the Create button as shown in the picture And you will see that data are inputted on the screen To finish inputting data click the Close button In the meantime the Cancel and Previous buttons can be applied in the middle of input the Cancel key provides the same function with the aforementioned Escape key while the Previous key provides the function with which you can delete the inputted data point by point 31 32 Edit Function There are three methods available for editing data the first one is using the mouse buttons for edit the second one using the direction keys and the third one by means of the input value Accordingly in the case of the existing sewing data the data and points can be changed by using such functions as Add Delete and Move AN Sewing data should be in the edit area to apply the edit function o Dap sot ts sol Editing Sewing Data There are three methods available for editing sewing data The following picture relates to editing sewing data Editing with the Mouse Pointer Add Sewing Data Node Insertion The following illustrates the stitch insertion step by step with the sewing data inputted by User s Stitch Input 1 Select the Add Sewing Data Node button on the Tool Bar 2 Select the desired sewing data Node to be added by left clicking the mouse The second Nod
48. ol Bar Dialog gt E Control Tool Bar i View Max Min Sewing Area Stitch Point On Ctf zoom Tool zoom Gut Zogrm Full Stitch Replay Miri Avi ax Sewing Range The dialog box for Max Min Sewing Range Check is Surana Rais displayed You will be able to easily identify the range EEH for maximum minimum sewing data by referring to aa this range check dialog box En mere Lec 25 Unit mm STEP Measurement of the Length Between Two Stitches This function is used to measure the distance between two stitch points Select Measurement from the menu bar and then select Between Two Stitches Or select Measure view Measure pe meat of the length between two stitches on the 7 3 mesure E Measurement Tool bar The button becomes sunken when selected Select the first node of the sewing data to be measured in the edit area by using the left button Pa of the mouse The selected node is displayed as LO e a black circle as in the picture KZ GB Select the second node in succession The selected know Is also displayed as a black pS j i i E 9 circle as in the picture NPR Once the data are displayed like the above e picture right click the mouse The selected black E REN Length 1 40 circles disappear and the measured value of the distance between the two stitches is displayed in the box on the Between Two Stitches item in the Information Tool bar loc
49. on of the entire design making process of 2070P Follow the process step by step First of all a piece of actually sewed pattern design and a whole pattern design created by repetition of the pattern are presented below a piece of sample continuously sewed fm pattern design Sample pattern design 6 68 STEP Sa gt Before performing punching works zoom in the edit screen to an appropriate size for convenient punching avice Contral Setting works Select Stitch Points Layout which is a E E submenu of Sewing Settings from the menu a Select Control located at the upper end of the program Change the Stich PainkLavout type of stitch points into Circle Point And click the OK button for setup Refer to the Sewing Settings item for concrete settings Select User s Stitch Input button from the Sewing Tool bar Input data stitch by stitch in the menu edit screen by using the mouse gt Starting Point _ g l E y e e he pe o De a e i before inputting everything o 6 _A Ending Point a after inputting everything When you have input all as the proceeding transmit the design to the 2070P by pressing the button of Zigzag direct transmission on the standard tool bar Please refer to Item of Zigzag design direct transmission concerning the more detailed explanations The right
50. owing the sewing area in a divided grid shape pattern Moves the sewing area enlarged by the Zoom In pene Viel sul function Short F3 Zoom In A Enlarges the sewing area Short F4 Zoom Out al Reduces the sewing area Short F5 Agjust al Adjusts the sewing area to the sewing size PS Displays grid lines on the sewing area Short F2 Sewing Tool Bar BS Sewing Tool Bar provides functions with which the user can create actual sewing data For example it provides the User s Stitch Input function by which the user can input stitch by stitch and the Delete function that deletes created sewing data All these processes are to be performed while the sewing data to be applied are selected gt Inputs the sewing data of a stitch using the User s Stitch Input A mouse pointer Delete rae Deletes selected sewing data Sewing Edit Tool sewing Edik al Sewing Edit Tool includes functions that can edit created sewing data Add Sewing Data Node is used to add a stitch in the selected point of sewing data while Delete Sewing Data is to delete a stitch from selected sewing data node Move Sewing Data node is used to move a stitch of selected sewing data node to a different location Add Sewing Data Node zp Adds a stitch of sewing data in selected sewing ES data node Delete Sewing Data A Deletes a stitch of sewing data from selected Node sewing data node Move Sewing Data AQ Moves a stitch of sewing data from selected
51. r You will see that the selected red point will move whenever the mouse button is clicked as shown in the picture 5 Lastly move the currently selected sewing data to your desired location by left clicking the mouse on the desired location The picture shows the moved sewing data point Ar 1 gt n N 1 D y 1 A S18 For your information the Last stitch point button moves you to the last stitch of the selected sewing data The First stitch point button moves you to the first stitch of the selected sewing data The stitch edit work using the Replay Tool bar applies only to the Move Stitch Data and Delete buttons and is the same with the aforementioned method using the mouse The advantage of this method is that the user can edit the data looking at the creation sequence of the stitch data Data Processing The functions related to data processing are useful functions required when processing sewing data 37 Other Useful Functions m Edit Tools Hand Tool F3 Hand Tool is very useful when editing data or viewing them in all direction Let s suppose the screen is enlarged by the Zoom In function Hand Tool can be STEP applied only when the screen is enlarged Select Hand Tool Once itis selected it becomes sunken 3 You will see that a hand shaped icon is created when locating the mouse pointer in the edit area Move the icon while keeping the left button of the mouse pressed You will see
52. s reduced by 20 Press the Yes button And the selected sewing data are enlarged e Reduction can be performed in the same method J Rotate Rotates selected sewing data Select the sewing data to be rotated Select the Rotate button And the Rotate Dialog box is displayed The selected pattern is displayed in the shape of dotted lines with the entire area of its size established STEP The Rotate Dialog box works as follows Angle To be inputted with the angle to which the data are rotated Rotation Dialog Rotating angle Angle Jas Cik Exit 3 Enter 45 for the rotation angle and press the Yes button You will see that the selected pattern is rotated E In case of rotating selected data to repeatedly rotate them by 1 degree will result in distorted data due to the calculation error If not repeatedly rotated the data are not affected even if they are rotated by 1 degree Move Moves selected sewing data Select the sewing and sewing data to be moved Select the Move button And the dialog box is displayed The selected pattern is displayed in the shape of dotted lines with the entire area of its size established The Move Dialog box works as follows Mave Dialog X To be inputted with the unit to be moved on the x Moving amount rnin axis x 2 X al Y 2 Exit Y To be inputted with the unit to be moved on the y z axis
53. s the PARA SET key again 5 Now you can sew the selected ROM pattern 2 Structure of Input Pattern Data First we are going to give an explanation of the structure of the pattern data Users will have lots of difficulties if they try to input data codes without being helped by SSPz while they do not have any knowledge of this data structure Once they understand this data structure they will be able to create and input design data for themselves without being helped by SSPz The following figure is presented to explain the data structure Y axis 2 50 2 00 1 50 1 00 0 50 O50 7 00 150 z200 2 50 a 5 mikat 1 e 0 E E a 1 50 1 00 y Ya Regular Transfer 0 50 Yy A X axis 0 50 j Reverse Transfer 1 00 1 50 ea sa gi i 2 00 You need to understand the coordinates on both x and y axes in order to understand the data structure The x axis is always inputted with absolute coordinate values That is it is inputted with the coordinate values of the locations which are marked with dots as in the above figure The value of the x axis at is 0 0 On the other hand the coordinate values of the y axis should be based on the transfer distance value of the BT Step motor instead of the absolute coordinate values The transfer distance value can be attained as follows The structure of input pattern data currently used in 2070P is not applicable to 2070 61 62
54. sewing point from the origin when creating data using 2070P Selection of Elements Using the Mouse It is simple to select elements by using the mouse You need to select the stitch of data in order to select sewing data And you know that the stitch node of sewing data is each of the stitch data The stitches of selected data are in the shape of a circle while sewing data is displayed in red and in black that represents stitch data As for the principle of selecting sewing data the pointed location should be within 3 pixels 3 pixels both vertically and horizontally of the target sewing data to be selected When the distance between certain two data is 0 1mm the neighboring point can be selected instead of the desired point In these cases the problems will be solved if you set up the 2 setting ranges to be 0 in the menu of set up a selecting range of sewing data 28 Data Creation a a a Lan STEP 30 Creation of Sewing Data You can input data by selecting on the Sub Tool Bar the function buttons corresponding to your desired type of input The following part explains the creation process of sewing data step by step m Data Input by Using the Mouse You can input data using the left and right buttons of the mouse User s Stitch Input In connection with the method of User s Stitch Input a jump is automatically created from the origin when the User s Stitch Input data are initiall
55. that the screen moves along with the movement of the mouse Zoom In F4 Zoom In is a tool used to enlarge the edit screen Select the Zoom In button Place the mouse pointer on the part of the edit area to be enlarged ti file POM Data VO Esto View Mescure Ince Device Comte Sating Helo TUPEU KS MAA Suera 5 oms titre saben fay masr a f rf Drd Lee AP ci a el ine Tinie WAT AR NA 3 Upon left clicking the mouse you will see that the screen gets enlarged on the basis of the clicked point There is another method of enlarging the screen left click and drag the area to be enlarged to get a dotted line rectangle and release the left button of the mouse And then the dotted line rectangle area gets enlarged be enlarged if you place the mouse point at the position to enlarge and then press the i When you want to enlarge the screen using F4 of the short cut key the screen will F4 key On the contrary the screen will be reduced if you press the F5 key SunStar tl SURPAT Ose A sera i ljea trammenten ay aaar La a vE hta i Ue 8 eerie dil 0 anid Mine Tinie ERT OT IM Zoom Out F5 Zoom Outis a tool used to reduce the edit screen Select the Zoom Out button Place the mouse pointer on the part of the edit area to be reduced iy file POM Data VO Eih View Measure Inas Device Contre Seating Hein ETT AA AO Share 5 fons tutos san fav s
56. to fit the port setting of user s computer for serial transmission of pattern data by SSPZ as follows O After selecting My Computer on desktop click on the right mouse button to generate the menu like a side figure Select Entry Information R in the bottom of the menu When selected System Entry Information dial log box appears Select Device Manager from Items again to display the current devices in computer like the side figure Click on button of Port COM LPT to display the current setting ports Port may be different depending on the specification of user s computer Select Communication Port COM1 or COM and then click on Entry Information in the bottom of the figure When selected the entry information on Communication Port COM1 appears like the side figure Select the port setting of the second item and set number of bit per second B as 57600 Finally press OK button and store the setting items The reason for the port setting is because the protocol between 2070P equipment and computer must be same each other Search Fine Network drive connection Network drive disconmect on Make loon Name exchange General Device Hatawere setup Me Pariormanca C Stowae link state uter m g Network adapter disk drive E al display adapter Hg Mouse a Flopy disk controller al Registry intormaion Renew Remove Print Tel
57. uccessfully installed double click SunStar Machinery Co Ltd where the program is installed You can find the SunStar SSPZ folder in the folder Double click SunStar SSPZ to confirm the following icons Sun Star 8sPZ File Ed Edit E gt Name Ci Rainbow Technologies DELAS ca or E ICI RoboHELP Office Samsung Adaress 1 C Pragram Cat rogram m Sunstar SSPZ DO E Icon a ay fio Personal Fica Uninstall Information mava visio ma Citta Briblich 13 Getting Started Introduction This manual explains the input program of electronically controlled high speed 1 needle zigzag sewing machines in connection with KM 2070P It is designed to help the user easily create edit and manage sewing data This manual is the official user manual that contains overall information on the installation and actual use of the program Please read this manual thoroughly from the beginning to the end before using the program 14 STEP Start and Finish of Program After installing the program on your computer connect your computer with KM 2070P using the serial cable provided with the product Refer to Principal Parts of this manual The program is located in the directory chosen by the user when it was installed You can find the program registered in the program list of the Start Menu as in the following figure Refer to Installing the Program of this manual
58. y to sew O In case you sew with a complicatedly or arbitrarily created pattern containing many BT codes you may not get a correct pattern if you use the maximum speed for the pattern created in such a way In this case appropriately Slow down the speed 5 Actually Sewed Sample Design Basic Patterns ri N DY yy VIF 7 ee DY Ne y YA SY A Zz A A A 4 4 A Z lt A A Dy Se I as DA NANANAN LOD F AS Gs Basic Pattern Number The actually sewed sample designs shown in the above picture are provided as basic patterns 13 Method of Setting the Sarting Point SunStar KM 2070P B T Starting Point Setting Flow As in the existing KM 2070P model perform the setting of machine and install the control box 1 Install the B T motor and starting point sensor 2 Connect the B T motor and the starting point sensor cable 3 Install the Dial O P and connect the cable to the digital B D 4 Adjust to make the starting point sensor film positioned at the center of the sensor with the value of motion reading 0 Turn the power on Check the right and left starting points of the needle bar and the front and back starting points of the B T NO Starting point of the needle bar OK Adjustment of the starting point of the needle bar YES Select No 1 straight line pattern Set the forward and reverse stitch length
59. y inputted When sewing data having certain attributes are initiated jumps are automatically connected centering on the origin 1 Select the User s Stitch Input button as shown in the above picture The E button becomes sunken when selected EA 2 Locate the mouse pointer in the edit area to input data Left click the desired location And input data Until the User s Stitch Input function is finished you can continuously input data Make sure the distance between each point on the Y axis shall not be over 2 5mm when inputting data The maximum transmission width on Y axis is 2 5mm 3 Right click the mouse to finish inputting data If you want to cancel the inputted data before right clicking the mouse press the Esc button on the keyboard m Data Input by Using the Direction Key on the Keyboard Key Input Resolution amp ettinig Windovn Resolution eE Key Moving Interval 0 1 nm Ok Cancel Basically this method is the same with the data input by using the mouse The difference is that this method moves the cursor using the direction keys on the keyboard instead of the mouse And it uses the space bar instead of the left button of the mouse when inputting data For example select the User s Stitch Input button on the Sub Tool bar to input desired type of sewing data same with the input by the mouse Once the button is selected locate the mouse in the sewing area The mouse cursor moves ac
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