At, from 8-11 March in Amsterdam, will showcase the flexibility its modular solutions can provide as part of an end-to-end workflow.“The pressure to complete more jobs per production shift means operations are looking for ways to maximize their capacity while keeping a close eye on profitability,” comments Armand Gougay, Esko Vice President EMEA.“There are a number of ways Esko can help them make changes to address these issues, from highly flexible and responsive hardware to ingenious, easy-to-use software. At, we will be explaining these possibilities and demonstrating exactly what the tangible results can be.”Among developed to address the every-day challenges faced by sign and display operations, is its Kongsberg C64 digital finishing system.The Kongsberg C64, part of the re-engineered Kongsberg C-series platform, is a state-of-the-art, super-wide digital finisher that offers the highest possible performance level. Precision and productivity are guaranteed, thanks to the carbon-composite traverse beam, which is unique to Esko. It assures excellent precision and supports high speed and fast acceleration, with high quality creasing and the powerful 3kW milling capability exclusive to Esko. Its maximum workspace of 3.210 mm by 3.200 mm makes it ideally suited for modern wide format printers.It assures excellent precision and supports high speed and fast acceleration, with high quality creasing and the powerful 3kW milling capability exclusive to Esko. Its maximum workspace of 3.210 mm by 3.200 mm makes it ideally suited for modern wide format printers. Software suite for hard resultsBusiness performance is also supported by Esko’s ever-evolving software suite.
It includes the highly flexible i-cut Production Console ( iPC) which drives all functionality on Esko Kongsberg tables. Its simple-to-use interface ensures efficient, safe and high quality operation. It also delivers operator guidance and precise machine control thanks to its ingenious design and range of logical, user-friendly features.Its simple-to-use interface ensures efficient, safe and high quality operation. It also delivers operator guidance and precise machine control thanks to its ingenious design and range of logical, user-friendly features.ArtiosCAD and Studio, Esko’s structural design software for 3D design of displays and other structures, will also be on show at FESPA along with the company’s Automation Engine, which manages pre-press workflow automation.These dedicated tools streamline structural design, product development, virtual prototyping and manufacturing.
Lataa ilmainen Fespa App Apple storesta tai Google Playsta hakemalla Fespa 2019! Esko Software Platform: project management, artwork creation, structural design, prepress, 3D visualization, workflow automation, quality assurance, palletization, supply chain collaboration and approval.
Enter a beamUse directly your pointer and click within the working area to enter a beam. The pointed position sticks to grid lines (call zoom in if you want to enrich the grid).
Continue with clicking to desired end position of the beam or. enter the desired length (of the beam being drawn) into the coordinates dialog. That is also a way how to bypass the grid.Press Escape key or Abort button when finished.Note: you won't be able to enter nodes. Nodes will appear automatically during the beam creation. NewErases all objects and starts a new project from a scratch. Also serves to interrupt demo. OpenOpens a saved project.
Typically you may choose from opening an. autosave and. your last save.SaveSaves your actual progress. Only one file is supported, therefore the action replaces any older record. And a second file is used by autosave.Note: the project will be saved into storage of your particular browser and remains permanent through restarts.
Zoom out, Zoom inUsually affects the density of grid lines. It is likely you will find also useful tuning a scale within Settings SelectServes to select multiple beams by a rectangle.
The feature is useful if you want to. assign a cross-section to beams,. assign hinges on both ends of the beams,. remove loads within the Loads dialog or. delete selected beams.If mouse is your pointer then this button is almost useless (the feature is automatically entered on dragging attempts). But since on touch displays dragging serves to another purpose (scrolling the working area), this button has to exist.Note: some browsers (eg.
Firefox) may not support this feature: an error is displayed and you have to pickup beam by beam. AbortActs as Escape key and is useful on touch screens—which are not equipped by a keyboard—to. deselect selected beams, loads,. interrupt proceeding action (eg. Creating new beams, selecting by rectangle, placing load, assigning hinges.).
close an active form.You want rather to use Escape key (assuming you have a keyboard). RemoveRemoves selected beams or selected loads. You want rather to use Delete key (assuming you have a keyboard). SectionsDefines cross-sections and assigns them to beams.
First, a section has to be defined and saved. Once the section is saved, it may be used.It is common in structural analysis that effect of shear is not taken into account when evaluating reactions/deflections, thus A sh is optional. Shear area depends on type of used section: eg. Solid section, I-beam, hollow section; refer to other sources if you are unsure.Finally you have to select desired beams and call Apply button. Use Escape key or Abort button from the toolbar to deselect beams then. SupportsYou can place basic supports at any node.
The dialog also allows you to remove support(s). HingesA beam may be connected into node through a hinge. Activate the feature, then click on beams to achieve desired connection at each end.You likely want to use bulk mode if the model is a truss: select by rectangle desired diagonals of the truss, then activate the function and click on any beam from the group. LoadsThis dialog serves to.
place a single load or a single moment,. place a uniform load,. place a linear load,.
remove loads.A single loadA load can be placed into a node or anywhere (according to the grid lines) on a beam. If you want to place a load out of the grid, then place the load close to the desired position and leave the Load dialog.
Click the load to modify its parameters.By default, loads act in direction of gravity. If you want another angle, then the convention is: gravity load is zero and angle in degrees counts counter-clockwise. A uniform loadUniform load is a distributed load with the second parameter left empty. A load may be placed to/from nodes or anywhere (according to the grid lines) on a particular beam. If you want to place a load out of the grids, then place the load close to the desired position and leave the Load dialog. Click the load to modify its parameters.
Remove a loadThe feature is useful if you want to remove more previously placed loads all at once.The first mode (Run it): if activated, click on nodes or beams to remove loads acting on them.The second mode (Apply to selected): first select beams, then call the action. You can deselect them then by Escape key or by pressing the Abort button from the toolbar. Modify a loadIf you want to modify position of a load within a beam, you have to look where the beam starts. The zero will be highlighted (node in red color): position within the beam is measured from there.In order to keep the user interface simple, you won't be able to move a load entered on a node and you won't be able to change a uniform load to a linear one.
![Software Software](http://www.lhlogismiki.gr/en/wp-content/uploads/2014/03/Fespa_3DV_2.jpg)
In such cases, remove the load and enter a new one. SolveRuns the solver on your structure and prepares results. You may be given a warning or error. Some warnings can be overseen.
An error usually comes from unstable structures (mechanism). That usually happens when not enough constraints/supports are provided or a forgotten beam has been left.Once you alter/modify the solved structure, the results are considered no longer valid and are immediately removed.
DiagramsControls view and diagrams.In the Main tab you may turn on/off some layers that you can consider at the moment as obtrusive.In the other tabs you can control displaying N, V, M diagrams and the deflected shape. Let you point your pointer over diagrams to read particular values. Settings GUI scaleAvailable on touch screens only. The scale is useful to tune up a scale of the display according to your needs. If the dialogs and buttons appear large, then use small scale and vice versa.
Some browsers (eg. Firefox) may not support this feature. Drawing scaleA scale is useful when combined together with zoom. On a large and complicated structure you likely prefer small scale. On a simple structure being projected to students you likely prefer a large scale. Toolbar labelsThe buttons within the main toolbar on the top of the screen can or can not contain labels.
SI unitsSwitch between metric and imperial units. Paper sizeSet the size according to your model needs and confirm by Apply button. The large sizes decrease the performance of the browser. These settings will be likely voided in the future. ToolsAdditional function will be accumulated within this menu. Re-run demoRuns the demo again. Play tutorialThe demo serves rather to attract a user.
Open a tutorial video on YouTube in a new tab of your browser.