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SL-Programming system EXSL

PRODUCT INFORMATION EXTERNAL PROGRAMMING SYSTEM

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SL-Programming system EXSL

SL-Programming system EXSL-WIN-SU SL-Programming system EXSL-WIN-SA SL-Programming system EXSL-WIN-SU/SA

EXSL-WIN is a multifunction programming system with two Programming types and three CNC editors.

SL-Programming system EXSL-WIN-SU

Program versions:

SL-Programming system EXSL-WIN-SU according to ISO 66025 for the turning

SL-Programming system EXSL-WIN-SU according to ISO 66025 for the milling

SL-Programming system Basic turning SL-Programming system Basic milling

SL-Programming system EXSL-WIN-SU according to ISO 66025 for wood machining truning

SL-Programming system EXSL-WIN-SU according to ISO 66025 for wood machining milling

SL-Programming system EXSL-WIN-SU LIGHT according to ISO ISO 66025 for turning

SL-Programming system EXSL-WIN-SU LIGHT according to ISO 66025 f or milling D at a im po rt D at a co nv er si on

PC-keyboard for the control-independent editor (SU)

Workshop-oriented programming system with control-independent neutral editor, which contains the whole functionality of modern windows programs and control-independent input surface (SU). The EXternal programming system of SL creates NC-data, away from the machine at an external work place. These programs are transferred online to the control of the machine. The workshop-oriented NC-programming system is available in three different versions:

The uniform programming surface with the syntax according to 66025 generates a neutral NC-format. The integrated postprocessor enables the data transfer to diiferent industrial controls. The NC-program creation is done with a PC-keyboard.

ISO

SL-GEO / CAM

Post-Processor

SL-Programming system EXSL-WIN PC-controlled CNC-turning machines of the series PC-Dxx CNC-machines Tools with another control

Data transfer from

CAD-software products for the generation of

NC data

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SL-Programming system EXSL-WIN-SA

Workshop-oriented programming system with control-dependent editor and control-dependent input screen (SA).

The creation of NC programs is done in a control-dependent editor in the syntax format of the original control. It is recommended to use the multifunction keyboard. The keyboard can be used by simple exchange of the operating foils also for the programming of machine tools with other CNC-contourning controls.

Multifunction keyboard with keyboard foil For control-dependent editor (SA)

SL-Programming system EXSL-WIN-SA/SU

Workshop-oriented programming system with control-dependent and / or control-independent editor (SA/SU).

The creation of NC programs is done alternatively in a dependent and or independent editor. If the control-independent editor is selected, the creation of the NC data is done by the standard PC-keyboard. If the control- dependent editor is selected, it is recommended to use the multifunction Keyboard. The keyboard can be used by simple exchange of the operating foils also for the programming of machine tools with other CNC-contourning controls.

dependent editor (SA)

PC-keyboard for control-independent

editor (SU)

EXSL-WIN supports following manufacturer controls: Bosch CC200T, CC220T, CC100M, CC300M Deckel DIALOG 3, 4, 11, 112 Engelhardt CNC3300 turning, CNC3300 milling, CNC3400 milling Emco T1, M1, T2, M2 Fadal VMC Fagor 8055 TC, 8055 MC Fanuc 0T, 0M, 11T, 11M, 15T, 15M, 16T, 16M, 18T, 18M, 21T, 21M Gildemeister

EPL1, EPL2, EPM, DIN PLUS

Heller

UNIPRO

Heidenhain

TNC 135, TNC 155, TNC 355, TNC 360, TNC 407, TNC 410, TNC 415, TNC 425, TNC 426, TNC 430, DIN PLUS,, iTNC530

Maho CNC 232, CNC 234, CNC 332, CNC 432, CNC 432T, CNC 532, CNC 425 MILL PLUS Num 720T, 760T, 760M, 1060T, 1060M Siemens 3T, 3M, 8MC, SPRINT 8T, 810T, 810M, 820T, 820M, 840C-turning, 840C-milling, 810D-turning, 810D-milling, 840D-turning, 840D-milling Traub MX 8F, TX8, TX8-D, TX 8F, TX 8H

Multifunction keyboard with Keyboard foil for

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control-Multifunction keyboard with changing foil

A matrix consisting of micro pushbuttons can be assigned arbitrarily with keycodes, non-necessary fields are not activated. Six different levels (LED display) or controls can be simultaneously stored on the multifunction keyboard. An installation program with all drivers for the first loading of the table of symbols is contained in the scope of supply. The control foils are made of extremely solid polycarbonate material.

Insert control-dependent foil Select the level (LED-display) Ready!

Editor

Simulation

The suitable foil can be selected from a selection of to time more than 60 different operating foils. By the adjustment on new generations of control daily new operating foils are added.

The genuine "Feeling" as at the machine is created by the multi-function keyboard with clearly sensible pressure point and control-dependent key layout.

It is connected directly or together with the PC keyboard. In this case a keyboard switch renders good services.

In addition to the editing possibilities customary in windows, a powerful conversational module can be activated, which graphically shows a lot of functions belonging to the control and creates further editing possibilities. The on-line help can be context-referred activated on each position. It can be printed out, extended by own notes and grows in such a way with the requirements.

The descriptive 2D and 3D machine cutting simulation is free select able in views and cutouts for the traverse of the axes. Usually it is the X-, Y- and Z-axis for milling and the X- and Z-axes for turning. As an option NC-axes can be programmed and simulated. Milling: turntable, swivel table, vertical swiveling head, horizontal swiveling head, Turning: C-axis and Y-axis

Only with a simple exchange of the foils, the keyboard can be used as well for the programming of machine tools with different CNC-path controls

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EXSL is modular constructed and characterised by the

Database (*)

It is network-compatible and conceived for ACCESS and SQL-databases.

Data transfer

Tooling sheet (*)

Project-oriented data can be printed and stored into a tooling sheet.

Calculation of processing time

Graphics

Graphical cycle support (*)

following performance

Operating systems, network capability

The software runs with all Microsoft operating systems starting from version WINDOWS 98 up to the latest WINDOWS operating system.

The programs created are usually transferred online to the NC-controls. Postprocessors are available for NC-programs, which were created with a control-independent syntax.

Traverse paths and traverse speed are calculated from the NC-program and used for the determination of the manufacturing time

2D- and 3D-machine cutting simulation in free selectable views and cutouts

(Power-ZOOM). .

The machine cutting can be simutaneously shown in up to four windows at the same time . That has special advantages for the multi-side machining with the milling and the simulation of driven tools with the turning.

Apart from the representation of the workpiece the tools, the clamping tools, the machine tool can be also illustrated. A nearly real working environment is so created.

Two simulation modes step-by-step and full sequence can be selected

from most different viewing angle

Many contours available in the drawing are edited in praxis with the help of the cycles contained in the CNC-control. The integrated CAM-module or the graphical

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Internet function

Collision view

Zero point , blank, clamping tool and machine parameter

ON-LINE Help

Project management

The programs created in the software can be sent to others via the integrated internet function or programs can be received from others.

cycle support assure, that the created contours can be considered when

creating the NC-program. Thus the NC program is clearly visible and more easily optimizable than at the NC-generation via usual applications of post processors

The breaking of workpieces profile during the programming in rapid traverse or the collision with the clamping device, machine body etc. is shown optically during the simulation.

The user can change the zero point, the blank, the clamping device and the machine parameter arbitrary. This assures a realistic simulation.

Context-referred help can be activated and printed at any time

If the NC-program is needed some time later, all parameters additional belonging to this program are available for the user, for example:

Customer information (at job order production) Definition of revolver and tool hoder

Zero point and blank information Associated CAD-drawings

Main programs and associated subprograms

All information relevant for simulation are saved into the project management. This assures that all information are immediately available for a simulation later.

Exrtenal information can be integrated via OLE-objects. That means that e.g. external drawings, working shedules and additional information are available project-related and up-to-date.

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Clamping device

Blanks

Rechuck, dimensioning

There are nine free defineable clamping postions for the workpiece.

Workpiece dimensioning (*)

Machine tool

Tool memory

Creation of drawings (*)

Import of drawings (*)

An extensive, free-parameterizable clamping tool library is available

Depending on the state of training of the management, any modules can be blanked, so it is impossible to get access to them. This is especially interesting for the use in the training

Any blanks (machined parts and half-products) are free selectable

The contour created with the help of the simulation can be measured and dimensioned. After checking the data can be given to quality assurance systems

An extensive library of free selectable machine tools (zero point, working area, maximum rapid traverse rate, speed) is available

For the CNC-machining Turning and Milling, a library of tools is available in a tool magazine, which can equip a tool changer by means of drag & drop. As in reality, a tool consists of its single elements, e.g. holder, shaft or indexable insert

Integrated geometry module for the creation of any contours. Transfer of the contours created according to ISO/EN/DIB 66025 to the editor

CAD-drawings in file format dxf or Iges can be read in and selected. Profile lines can be broken and deleted as well as the zero point of the drawing can be determined. Drawings, which have been created with the layer procedure, can be easily edited via the integrated layer control.

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EXSL is an efficient, user-friendly and praxis-oriented programming system, which has been developed by practicians for practicians. It supports all usual CNC-controls. The 3D simulation is an almost realistic image of the real machine cutting process.

The constant development of EXSL has the objective 1. to increase the efficiency of the programming system. 2. to integrate new generations of controls of machines tools. 3. To create interfaces to other software products.

4. to guarantee data exchange with other SL Programming systems The data exchange of EXSL with other SL-programming systems,

Robotics ( ROBO2000 ), Mechatronics ( MSM2100 ), Assurance quality ( QS100 ), Programmable controllers ( ProTEST ),and the production planning system

( SL-PPS Office 2000 ), the use of a common database opens the possibility to image all substantial technical and commercial business operations on an common surface. Beyond that the possibility exists to extend the programming system

EXSL by a NC control module. With this module the PC-based machine tools for Metal and wood processing, which we sale, can be controlled directly.

The SL-Programming system EXSL-WIN-SU, EXSL-WIN-SA or EXSL-WIN-SU/SA represents together with the PC-based machine tools an optimal

NC-training system for the CNC-formation.

By software exchange and/or exchange of the operating foil the PC-based machine tools are universal training machines for any controls.

The modules characterized with (*) are not a component of the software EXSL WIN LIGHT

Student’s version available.

CAD

CAM

QS 100 SL-GEO

Production planning and control (PPS)

Order management - Offers Filing a contract Accounting Cost accounting - Precalculation

Post-mortem costs Production control - Production planning

Production management Production control station Operational data control ( BDE / MDE ) process optimisation CNC Turning Milling Punching Nibbling wire EDM Oxygen cutting Postprocessor - Neutral according to DIN 66025 - in the syntax format of the machine control

Process simulation Mechatronics MSM 2100

Import of parts lists Iges / dxf Target value GOOD parts Actual value Reworking Résumé

References

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