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Overall Workflow
Like laser cutting, vector-based 2D drawings are used to define where the machine will cut. The depth of the cut is specified in the Zund software and can be assigned to geometry by layer.
There are several different types of tools that can be used with the Zund Cutting System. The GSD has the following options available:
Universal Drawing Tool (UDT) - For drawing lines with a pen.
Universal Cutting Tool (UCT) - For most cutting operations
Electric Oscillating Tool (EOT) - For soft materials such as cardboard, foamcore, or rubber.
Pneumatic Oscillating Tool (POT) - like EOT but with greater blade throw and faster oscillation for thicker materials.
Driven Rotary Tool (DRT) - For fabrics and fabric-like materials.
A variety of knives are available for each tool, but material presets are generally configured to make knife changes extremely rare. Only TA's may change out knives.
Router Module (RMA) - For 2.5D milling of aluminum, thick plastics and other rigid board materials.
The router has the following tools available:
R-118A: .236"⌀ x 1.06" routing depth
R-133A: .1186"⌀ x .433" routing depth
R-136A: .236"⌀ x .866" routing depth
R-141A: .401"⌀ x .157" routing depth (V-shape bit)
R-202A : .076"⌀ x .23" routing depth
R-204A : .156"⌀ x .55" routing depth
R-205A: 197"⌀ x .63" routing depth
R-206A : .234"⌀ x .86" routing depth
R-208A : .118"⌀ x .31" routing depth
P-201A: .217"⌀ x .63" routing depth (for polishing acrylic)
E7-A: 60 degree x 4.7 mm routing depth engraving bit
E8-A: 40 degree x 7.5 mm routing depth engraving bit
Material type and thickness will inform which of the cutting or engraving tools can be used. The router should only be used with TA supervision, and only on approved projects, it is not open to public use.
Suitable Applications
The Zund is best used for cutting materials that cannot be cut on the laser cutter, such as plastics and synthetic fabrics or foam rubber that release fumes, highly flammable materials like foam-core and cardboard, or cuts in materials that are larger than the size of the laser cutter bed. It can be good for routing smaller stock that would be difficult to mount to the CNC routers, as well as materials that might require extra setup on the CNC routers, such as soft metals (aluminum, copper, brass, etc) and thick plastics, such as acrylic or expanded PVC board.
A secondary benefit of the Zund is that, because it uses blades and does not produce heat like that generated by the laser cutting process, there are no burned edges on materials.
The Zund can also be used for more unusual materials for specific projects, such as wax, metal mesh, corrugated plastic, plastic films, fabric, foam and felt.
The Zund is NOT to be used for materials that are easily cut on the laser cutter or the CNC's, or simply as a time saving measure, such as foam-core rectangles that could be cut by hand. The Zund cannot handle materials over 1" in most circumstances, and in general cannot do more than 1/2" with most blades.
The Zund is NOT primarily a router, and should not be seen as an alternative to the AXYZ or Onsrud routers for milling jobs. The router is only used for projects approved by FabLab staff and performed under their supervision.
A full list of usable materials is available through the 'cuttmp' folder on the GSD server. If the intended material is not listed, work with a TA to define a new material process based on similar materials or by working through a series of tests in the material. You will need to supply enough sample material for testing.
Because force is exerted on the material by the blade moving during cutting (unlike the laser cutter), smaller features may not come out as cleanly or detailed as they would on the laser cutter. In general, the Zund is better suited to larger features.
For routing, offset for the diameter of the bit does not need to be integrated into the file, the Zund will automatically apply the appropriate offset and route along the outer or inner edge of the specified vector, not down the center. (May need clarification: will ENGRAVE down the center of OPEN curves. All other operations (route and engrave, open and closed curves) will be cut to one side of the curve or the other, using the radius of the tool. Question: what happens when, in editing, you choose a different bit diameter than is selected in the Cut Center? Answer: it's fine as long as you haven't created Island or Raster Fills in Editor)
Access
Detailed Foamcore, Chipboard, Plastics, etc: lab hours (after January)
Foamcore Rectangles: after hours only
Fancy Stuff: TA hours
File Organization/Prep
Accepted File Types:
EPS / AI (this is best)
DXF (has some issue with curves, possibly the preservation of layer order)
HPGL
Use layers to organize and assign a machine operation to the geometry. Name the layer to correspond to desired the machine operation. Layer order also determines operation order, use the following order of operations as a guide:
Cutting Methods/Operations
Register
- Register uses camera recognition of material edges or printed features to orient the file to the stocks borders accurately. (Visually aligning a laser beam can also be used, rather than the camera.)
- If using rectangular stock, model the stock to register to the edges of the stock (useful for multiple features cut from one piece of stock).
- points or the center of other small features can be used to tell the machine where to find 1/4" diameter black dots printed on the media.
(the X0, Y0 axes of the file can also be used to tell the machine where the right and front edges of the media are located).
- When a layer with geometry is imported as a Register layer or another layer is converted to Register, the geometry will no longer be visible, but it is still there, represented by the offset from the origin.
Draw
Draw is an operation that uses a ball-point pen to plots curves.
- vectors (open and closed).
- fills/hatches.
Score
Score is a knife cut that goes partially into the material thickness (certain depth or percentage).
- Uses vectors (open and closed).
Cut
Cut a knife cut operation that goes through the material thickness.
Uses vectors (open and closed).
Engrave
Engrave is a router cut that goes partially into the material thickness (certain depth or percentage).
- vectors (closed).
- create separate layers for shapes where the tool should stay to the inside versus outside the closed curve.
- open vectors will cut to one side of the curve or the other (and are not recommended). True?
Route
Route is a router cut that goes through the full material thickness.
vectors (closed).
- create separate layers for shapes where the tool should stay to the inside versus outside the closed curve.
Correctly set up layers in both Illustrator and Rhino
Files should be clean with as few control points as possible. Check file for floating control points or geometry, or unclosed shapes. When converting from Rhino/AutoCAD to Illustrator, ensure the resulting geometry is completely accurate as some changes can occur during export.
Line weight and color are not read by the Zund, machining operations are assigned by layer names.
If there are multiple layers of the same operation, do not label them Cut 1, Cut 2, etc., simply label all layers by the desired operation and the Zund software will automatically number them in order.
Layer Aliases
There are many 'aliases' for each operation, which are the range of acceptable labels that can be interpreted by the Zund.
- 'Register' can be labeled as: Camera, Regmark, Regmarks, Dots, Registration, Register, Reg
- 'Draw' can be labeled as: Draw, draw, sharpie, pen, Sharpie, Pen, Lines, lines, line, Line
- 'Score' can be labeled as: Score, score, etch, Etch, cutting
- 'Cut' can be labeled as: Cut, Straight cut, Through cut, Throughcut, CutContour, CutContourFullCut, CutContourFast, CutContourSlow, Thru-cut, cut, thru cut, Thru cut, CUT, cut, cut through, Cut Through, ThruCut, thrucut, cutting
- 'Engrave' can be labeled as: CutContourEngrave, Engrave, engrave, engraving, Engraving
- 'Route' can be labeled as: Router, CutContourRoute, Route, route, router, routing
New aliases should be added to the hotfolders when a user specifies an operation, but uses a layer name not yet on the alias lists.
Hot Folders
Hotfolders move files from specified folders to the Cut Server and Cut Queue.
To assign a material to the geometry, drop the .AI (EPS, DXF, or PDF) file into the corresponding "Hot Folder" on the GSD server in the 'cuttmp' folder:
Once in the hotfolder, the Zund software will assign a material type to the material. Layer names will be processed and associated geometry will be used to define where that machine operation takes place. At the conclusion of this process, the file will appear in the Cut Queue software. Double clicking on this job will open the file in Cut Center and prompt for a material thickness. Carefully measure the stock with calipers and enter the value in the "Thickness" space near the bottom of the "Select Material and Thickness" window. Do NOT change any other settings, materials or parameters. Once the accurate measurement is entered, click 'OK'.
To use the calipers, close the jaws completely and press the power button. If the screen does not read '0.000 in', press 'ZERO' to reset the calipers. Open the jaws using the thumb wheel, then close fully on the edge of the material. Take measurements from several locations on the stock to ensure accuracy.
Step by Step Tutorial on Using Calipers
If the desired cutting material is not listed, ask a TA what an appropriately similar material would be, or work with one to define a material process specific to your objective.
Current thinking is to NOT use hotfolders: import files into the editor, assign material type, thickness, and methods to geometry. Save and then send to queue. Open in Cut Center to execute. For jobs that are not going to be run right then-and-there, still finish processing in Cut Center and save file for later (where?)
Hardware
Vacuum Hold-Down
Maximum cutting size is 98.3"x52.3"
Porous cutting area will pull vacuum through and hold down nonporous materials.
Can be zoned (runs from front-to-back of machine, starting on right side and moving toward left) to increase hold down in the needed section.
Auto-starts at the beginning of jobs, can be set to auto-fit (narrow) to the stock.
Best to check hold-down before starting job (turn on vacuum in Cut Center and try to move material)
Adjustable strength (1-10, most materials use 5 by default to minimize noise)
"Mask"-off areas that aren't used, but within the length of the zone using cardboard or scrap to increase hold down.
When cutting porous materials, cover with thin nonporous material such as taffeta.
Sealgrip
Must be used when routing or engraving. Be sure that the console display reads 'overlay on' so that the machine knows the sealgrip is being used.
Camera
Used for material border and 1/4"-dot registration.
If the camera is not picking up the edge of the stock, lighting can be adjusted, as well as brightness/contrast/etc by right clicking on the camera live feed during the registration step.
Modules
Hold the tools. There are two universal tool holding modules, and one router module that must be attached before routing jobs and removed immediately after. Tool changes are performed by removing and installing desired tools in the tool holder modules.
Tools
Universal Drawing Tool (UDT) - For drawing lines with a pen. Useful for labeling parts.
Universal Cutting Tool (UCT) - For most cutting operations. Uses a variety of inserts. Does not oscillate, drags blade through material.
Electric Oscillating Tool (EOT) - For soft materials such as cardboard or foamcore. Good when UCT excessively drags or deforms the material.
Pneumatic Oscillating Tool (POT) - like EOT but with greater blade throw. Good with thicker materials that the EOT has trouble cutting cleanly. The POT cuts a little cleaner than the EOT, but because it is pneumatic and runs off the same compressor as the Onsrud and woodshop air hookups, it cannot be used while the others are running. Only use the POT if the Onsrud is not currently operating.
Driven Rotary Tool (DRT) - Uses a rotating circular blade. For fabrics and fabric like materials. Minimizes force acting on the material, but has the greatest overcut due to the blade geometry.
Cutters (Knives and Endmills)
Many knives are available to insert to the tools, with differing geometry based on the intended purpose. A full list of blades, their geometries, and suggested materials is available at
<link to pdf>
Console
The console directly controls the cutter without going through the software. The console is used primarily for performing tool changes and switching between online and offline mode. The gantry can be manually controlled by the Travel keys, and moved rapidly by holding the Shift key.
The vacuum can be toggled on and off by pressing the Shift key and the VAC key.
Pressing any of the Travel keys or STOP during a cutting operation will pause the job and raise the tool until the Online button is pressed, resuming the job.
The console screen during a tool change. Options on the bottom level, 'Init' (short for initialize) and 'Ok' are selected by pressing the Soft keys below each option. Options following a number, such as '1. Select tool' are selected by pressing the corresponding Numerial key, in this case, 1.
Light Barriers
The Zund has safety features to prevent injury during operation. The main feature is a series of 'light barriers' that are projected from one end of the gantry to the other, on the front and back side of the cutter. If these beams are broken by someone reaching into the operating area, or if a piece of stock lifts up unexpectedly, the cutter will immediately stop operation. The LCD screen will display that a light barrier has been triggered, and will list what barrier was broken. To continue the operation after everything is cleared from the table, press 'OK' then 'ONLINE' to continue the cut from where it stopped.
While the light barriers are a soft stop, the four red emergency stop buttons located on each corner of the machine are a hard stop. When an emergency stop button is pressed, the operation immediately stops, cancels the current job, and disengages the tools. To continue from an emergency stop, the triggered button must be twisted clockwise to release, then the instructions on the LCD must be followed. The tools will re-engage and require re-initialization. The job will have to be restarted from the PC.
If something begins to go wrong during the cut, such as the stock moves unexpectedly, the operation can be paused by pressing any of the gray directional buttons on the console, or 'ONLINE'. This takes the machine out of online mode, pauses the operation, and lifts the tool. The cut can be continued by pressing online once the issue is resolved.
Software
Online Mode
The Zund has two main modes of operation, online and offline, which are switched between by pressing the red 'ON-LINE' button at the bottom right of the console. Most setup operations are performed in offline mode, such as tool changes, parameter editing, and making changes to the file through either Cut Center or Cut Editor. Online mode is activated before performing any cuts, or entering Interactive Mode through Cut Center. Most common errors occur from not being in the correct mode, but are easily fixed by pressing the button and entering the correct mode.
Cut Queue
The Cut Queue pulls files from the hotfolders located on cuttmp, assigns a material to it, and then lists it at the top of the queue. Depending on the size of the file, it can take several minutes for the file to transfer from the hotfolder to the queue, which is why it is recommended the user drops their file in the hotfolder from their desk before arriving at the Zund, to maximize the chance the file is processed and ready to cut when they arrive at the Zund.
Once a job is completed, it will be moved to the 'Job done' queue, under the 'Job queue'. Files can be accessed the same way from either, by double clicking to open directly in Cut Center, or by selecting the 'E' icon to open directly in the Editor.
Cut Editor
The Cut Editor is used for making changes to the geometry of the file, including adding, deleting, moving and scaling vectors. In addition, the starting point and cut order of individual vectors can be specified if the auto-order the program assigned does not perform satisfactory cuts.
Bridging
The Cut Editor is also used to add bridges to routing jobs to ensure the cut out features are not pulled up by the dust extraction, which will ruin the job and risks damage to the bit and router.
A routing file before and after bridging. Bridges are formed during the 'Multi pass last depth' parameter in the Cut Center 'Machine step settings' window, and should be .02 at a minimum to ensure strong bridges.
Setting order/direction/starting point of a vector
If a corner or feature of your geometry is getting caught and dragged by the blade, the order and direction of each line can be altered by first selecting the view order and view direction icons. The most common cause of corners being dragged is when the blade approaches an acute angle that has already been cut previously. The tip is unsupported, and if the blade is moving too quickly, it will catch and be dragged along with the blade. This is most damaging in foamcore, where the paper tears away and the foam interior balls up.
Example of a risky cut. Moving from the center-out increases the risk of the edges being torn, and an example of a safer cut, cutting from areas with more mass inwards.
Pink arrows denote open contours while the light teal arrow (upper right corner) indicates closed contours.
By selecting 'Reverse direction' through Tools --> Reverse direction, the editor enters a mode where every time a line is clicked, its direction reverses, denoted by the small pink arrow at the starting point of the line. This is most useful in situations where the blade approaches thin or acute features and ends up deforming or dragging them. By traveling outwards from the center of mass, the sharp corners are preserved.
By selecting 'Interactive order', the order of each line can be set by clicking on each line in the desired order.
Adjusting geometry
Precise adjustments to geometry is made using the 'Numerical geometry' window, accessed by highlighting the geometry to be edited and right clicking.
Numerical geometry can be used to move, scale, and rotate geometry by specific values. The boxes in the upper right select whether the geometry will be moved/scaled from the center, or a specified corner.
Any operation more complex, especially adding geometry, should be performed in the original program, at the Cut Editor lacks most of the features that make changes accurate, such as snap-to fuctionality.
Fills
When engraving an area, the geometry must be filled in, otherwise the router will only engrave along the perimeter of the shape. There are two methods of filling available, Island fill and Hatch fill. Island fill offsets from the outer border repeatedly until the shape is filled, while Hatch fill creates a grid within the border, either horizontally, vertically, or at a specific angle.
Cut Center
The main program used for performing cuts. Cut Center allows for assigning operation methods to layers (steps) if not completed previously, and adjust settings such as which tool and blade are being used. The Cut Center also allows for adjusting offset from the origin, performing test cuts, and adjusting and testing the vacuum.
The main icon toolbar in Cut Center with the most commonly used icons labeled.
Some icons, such as 'Interactive Mode' are only available when the machine is in 'Online' mode and will be grayed out unless in the correct mode.
To change a layers operation parameters, double click on the layer to open the 'Machine step settings' window. The 'Method' drop down changes machining operation type. The tool and blade drop downs change the tool to be used for the operation from a preset list of available tools. In general there are usually only one or two blades and available tools per method per material, to ensure the best tool is being used. If the tools installed the machine do not match any of the listed tool for the operation, a tool change must be performed.
Setting a reference point
When not referencing off of the borders of stock or to registration dots, a reference point must be set. Reference points are most often used when using irregular or scrap pieces of stock where there are no clean edges to reference off of and registration dots have not been built into the model. This point can be anywhere on the table, and will move the jobs origin point to the set reference point.
To set a reference point:
- Check the machine is in 'Online' mode.
- Select the 'Interactive mode' icon.
- Use the arrow keys to nagivate the laser pointer over the desired reference point.
- Right click and select 'Set reference point'.
- To ensure the cut will not go off the edge of the material, run a simulation by selecting the 'Simulation' icon and then 'Laserpoint simulation'
- The laser will then trace out every cut that will be performed during the job. Watch to make sure it stays within the boundaries of the stock at all times.
Vacuum settings
There are two main settings for the vacuum hold down: Vacuum width and vacuum strength. Vacuum strength is specified on a slider from 1-10 by selecting the 'Vacuum strength' icon. Vacuum width is the width of active vacuum hold down along the y axis of the table and is denoted by the dashed yellow line on the screen. Vacuum zones run from the set width on the y axis, starting from the right side, all the way to the back of the table. The vacuum can not be adjusted front to back along the x axis, but unused space should be covered with cardboard or scrap to increase the hold down under the stock. To adjust the width, right click the table and select 'Set vacuum width'. Test the vacuum after adjusting the width to ensure the full width of the stock is held down.
'Machine step settings' windows before assigning an operation, for a Thru-cut operation, and a routing operation.
Adjustable operation parameters
- Method: The type of operation to be performed. Each material has a set of available operations depending on its charachteristics.
- Name: What the layer will appear as on the right hand side of the screen.
- Color: The color the layer will render as on the screen.
- Line type: Whether the operation will perform along a solid, dotted, or dashed line.
- Cutting mode: Always set to standard.
- Tool selection: Drop down menu will allow the selection of the tool to be used during the operation, if multiple are allowed.
- Tool insert selection: Select the tool insert (blade or bit) to be used during the operation.
- Initialization: Where the tool will register height from. Alway set to base.
- Clearing distance: How high above the top of the material the tool will retract to travel. Does not need to be adjusted from default.
- Material thickness: Current thickness of the material. Cannot be altered through this window, needs to be set in the material selection window.
- Base depth: How deep relative to the table the material will cut. Should never be more than +/-.005. Adjust in small increments (+/-.002) if blade is not cutting all the way through the stock.
- Multi. pass max. depth: The most stepdown the router will perform on a single layer. Should not exceed .0500in.
- Multi. pass last depth: The depth of the final routing layer. If using bridges, should be at least .0200in, as bridges are formed from this layer.
- Machining depth: The specified depth for engraving operations.
- Score depth: The specified depth of a score, either in inches or percentage of material thickness.
- Acceleration, tool lowered: The maximum acceleration the tool will travel while cutting the material, from 1-4.
- Speed, tool lowered: The maximum speed the tool will travel while cutting the material. Slow down for a cleaner cut in most materials.
- Knife compensation: Offsets the cut to compensate for the thickness of the blade (generally unnecessary).
- Speed, lowering tool: The speed a tool will lower between steps. Must be >5in/s for routing operations.
- Router speed: Speed the bit will spin during routing operations. Should not be adjusted.
Orange parameter boxes signify that the setting has been changed from the default.
On the right side of the window is a representation of the current stock thickness next to a representation of the specified cutting depth. The red line on the routing operation represents the thickness of the Sealgrip underlay. The alternating light and dark gray rectangles represent the number and depth of each multi pass step to be performed. The green line above the material is the clearing distance.
Advanced settings
The second tab lists advanced cut settings. These should never be adjusted, with the exception of Overcut, if less or more overcut is desired during a cutting operation.
Overcut defines the offset from the original start and stop point of each vector. Some knives, particularly wider geometry knives and the DRT rotary blade create a significant amount of overcut. When cutting out thin features, this overcut can unintentionally cut completely through those features.
Some overcut is inevitable when using thicker materials, such as foamcore, and if prisitine cuts are required, the file should be set up to use the bottom side of the foamcore as the clean side, as that side experiences much less overcut than the top side.
<insert examples of overcut>
Cut Manager
Cut Manager allows for editing of material parameters, the available tools for each material, and hotfolder settings, among other administrative/hardware settings. Login is required to access these settings and in general Cut Manager does not need to be accessed by average users or TA's. If a new material or operation parameter needs to be entered into the system, ask a Zund TA or Rachel to log in and adjust the settings.
Cut Server
The Cut Server launches automatically when the Cut Queue is opened and runs the hotfolders and cutting operations.
If files are not transferring from the hotfolders to the queue, it is possible the server is either not running or has stalled operation. To restart the server, right click the '^' icon on the Windows toolbar, then right click on the red 'Z' icon and select 'Restart server'. Then, open Cut Queue to initialize the server.
If futher problems persist, remap the GSD server at \\gsdserver.university.harvard.edu\public and restart the Zund server.
See 'Cut Editor' to manually load a job without using a hotfolder.
Turning the Zund On/Off
To turn on the Zund, first flip both levers of the two power boxes mounted on the wall by the white board to the on position.
Then, turn the power switch located at the back right of the machine 90 degrees to the 'I', (ON) position.
On the console, the LCD screen will prompt to press 'F1' to start-up the machine.
Power on the PC located under the console with the power button.
Complete tool initialization of the installed tools to finish start up.
To turn off, start by shutting off the PC through the Start Menu.
On the console, hold the 'Shift' key (center gray button) and press 'STOP'.
When prompted by the LCD, select 'Yes' to shut down the Zund console.
Rotate the power switch at the back right of the machine 90 degrees to the 'O', (OFF) position.
Flip both levers on the power boxes down to cut off power to the Zund.
Performing a Tool Change
Red tool labels and red 'Start job' button in Cut Center indicated that the tool specified by an operation is not currently installed in the machine and will required a tool change.
To perform a tool change, start by pressing 'F4' to initialize the tool change operation. 'Pos 1' moves the gantry to the front of the bed to change out cutting tools, 'Pos 2' moves it to the router module for routing/engraving operations.
The machine must be in offline mode to perform a tool change.
Blade & Tool Change / Initialization
- Press
'F4'
on the console to initialize the tool change and then'Pos 1'
to bring the gantry to the front of the table. - Remove the unneeded tool by first pressing the small button on the front of the tool holder to unlock the rotary belt. With the button held down, rotate the locking ring fully to the right (about 90 degrees).
- Lift the tool carefully and vertically to ensure the blades do not contact the edge of the holder, which could chip the blade.
- Place the tool in the free tool dock behind the computer monitor screen.
- Locate the needed tool and lift carefully vertically up from the dock.
- Lower the tool into the tool holder of the ZUND, aligning the
red dot
on the registration protrusion near the top of the tool with thered dot
on the front of the tool holder. Be careful not to bump the blade against the tool holder. - Once the tool is fully seated, rotate the ring back to the left, holding down the release button. Do not overly tighten the belt.
- On the console, press
'OK'
- When prompted, press
'1'
to select 'Select tool' - Using the arrow keys on the console, navigate to the tool that has been installed.
- Press
'OK'
to select the newly installed tool. - Once the correct tool is listed on the console screen, press the button below
'Init'
to begin initialization. - Press
'2'
to select 'Auto init' - Press the button below
'Start'
to begin automatic initialization. Stand clear of the gantry. The gantry and the newly installed tool will travel to either the left or right of the table and lower until the blade breaks the beam of the laser, saving the parameters of the tool length. - Press 'ON-LINE' once to save the settings, and once more to enter online mode.
Electric Oscillating Tool - EOT
Widget Connector width 875 url https://vimeo.com/manage/354691612/general height 450
- Remove the EOT from the machine if it is currently installed.
- Carefully rest on the table such that it won't fall off.
- Loosen the set screw to release the blade.
- Remove the blade and place back into its labeled container.
- Insert the new blade into the EOT with the
longer point of the blade
in the center of the EOT andcutting edge facing the outside of the tool
. - Ensure that the blade is in place by checking that the chamfered side of the cutting edge on the blade is aligned direct with the surface of EOT and tighten the set screw.
- Install the EOT into the tool holder, aligning the red dots of the EOT to that of the tool holder.
- Hold down the belt lock button and turn the EOT clockwise until the first notch on positioning bracket is engaged the registration post of the tool holder.
- Once the EOT is position, connect its cord into the
black power socket
of the ICC camera module. - Initialize the EOT.
To prevent the EOT motor section from moving during operation, it must be engaged to the vertical silver post at the back of the knurled ring. Gently rotate the overhanging motor section until it is perpendicular with the gantry. Once the EOT motor is in position, plug the attached cord into the black power port on the ICC camera module.
The EOT properly engaged with the registration post of the tool holder.
Pneumatic Oscillating Tool - POT
Widget Connector | ||||||
---|---|---|---|---|---|---|
|
The POT does not need to be engaged with the post. Plug the black pneumatic tube attached to the POT to the port labeled 'P4' behind the tool holder modules.
Universal Cutting Tool - UCT
Widget Connector | ||||||
---|---|---|---|---|---|---|
|
The UCT has no external power source and only needs to be seated into the holder module and secured with the locking ring.
Universal Drawing Tool - UDT
Widget Connector | ||||||
---|---|---|---|---|---|---|
|
The UDT is located in the cabinet under the keyboard. When not in use, the pens must always be returned to the plastic bag locate below the computer monitor and sealed to prevent the ink from drying out.
- Push in the BLACK knob at the far back of the tool and turn to begin moving the insert within the tool.
- Retract the insert by rotating the knob to the right until the two set screws are fully visible through the cut out slots.
- Loosen the set screws until the blade can be removed. Immediately return the blade to its container.
- Tighten the screws and turn the knob left to extend the insert. Once the insert is extended about an eighth of an inch, it will disengage and fall out when tilted.
- Pull out the insert. Because of the varying thickness between the Z10 and Type 6, they require two different inserts. The Type 6 uses the gold insert while the Z10 uses the silver.
- Install the insert that goes with the desired blade. Retract the insert into the tool until the screws are visible, loosen, and insert the blade.
- The full cutting length should protrude with as little as the shank protruding as possible. To avoid pushing on the tip of the blade with a finger, use a scrap piece of soft material such as chipboard or plastic to push the blade. Do not use metals as it will dull the tip.
- Once the blade is inserted, tighten the screws and extend until the surface of the insert is flush with the edge of the tool.
- Pull the knob to disengage and reinsert in the tool holder.
- Initialize the UDT.
UDT with the dial disengaged, and with the dial engaged to remove the insert.
V-Cut Tool - VCT
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Driven Rotary Tool - DRT
The DRT properly engaged with the registration post of the tool holder.
Router Module (RMA) Change
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F4'
and then 'Pos 2'
to move the gantry to the router module.The places the RM-A should be lifted from
OK'
, then 'Init'
, then '2'
, then 'OK'
to begin initialization.'F4'
and select 'Pos 2'
.Performing a Knife Change
Blade changes should be performed extremely rarely and only by trained TA's who have observed and performed proper blade changes before. Pushing blades into the holders incorrectly can cause cuts and damage to the blade and tools, especially if the blade is seated improperly and comes loose during operation.
The blades currently in each tool are listed on the white board, and should be updated immediately after a change to keep accuracy.
All blades are installed with the tip in the center of the tool and the cutting edge facing towards the outside of the tool.
All blades and inserts are located in the drawer to the side of the PC and keyboard.
There are only three situations in which a blade change should occur:
- Switching between a Type 6 and Z10 in the UCT
- The two blades primarily used in the UCT are the Type 6 and the Z10. The Z10 is significantly stiffer and more durable than the Type 6, but is much wider and has a tendency to tear thinner materials such as paper, taffeta, and plastic films. The Z10 should be used for soft plastics, such as thin styrene and PET-G, as well as thin chipboard.
- Switching between a Z21 and Type 6 in the oscillating tools
- The Z21 costs $36.10 apiece, while the Type 6 costs about 16 cents. When cuts with a harder material such a thick chipboard, it is advisable to use the Type 6 blades, and use the Z21 blades for softer thick materials, such as cardboard, foamcore, etc. It is much preferable to break or dull a Type 6 blade than risk breaking a Z21. If there is not complete confidence in the cut, use a Type 6.
- Switching to a longer blade for thicker specialty materials on an oscillating tool.
- Very thick soft materials, such as cotton board, thick felt, wax, and foamcore/cardboard over 1" require the use of specialty blades. This is a very rare occurence, and should only be performed by Rachel or another administrator as it requires the use of specialty tools and inserts to ensure proper alignment of the long blades. The long blades have a very short longevity and are the most expensive, and are used extremely rarely.
There are cases in which a specific tool geometry may be marginally better than others at certain tasks, but in general these advantages are minor. The blades suggested are the ones that have been most thoroughly tested and most cost efficient.
EOT
POT
The POT is the most complicated tool to change the blade in, because the blade holder is slightly wider to than the EOT to accommodate wider blades, like the two inserts the UCT has. The POT requires the use of a shim when using thinner blades such as the Z21, which is small, easy to lose, and expensive.
- Detach the pneumatic tube and remove the POT from the machine.
- There are two set screws holding the blade in the POT. Note also that the insert that holds the blade moves freely, unlike the EOT, which only moves during operation. Pushing on the blade or the surface of the blade holder will push the assembly into the POT, and it can be difficult to push it back out to undo the screws.
- It is helpful to hold the blade holding assembly in place using a screwdriver inserted into one of the set screws, to prevent the assembly moving during the blade change.
- Loosen the set screws. When changing from a Z21 to a Type 6, it is necessary to unscrew the set screws nearly all the way to accommodate the wider shank of the Type 6.
- When changing from a Z21 to a wider blade, such as the Type 6 or Z16, remove both the blade and the small shim. Immediately put both in their cases. The shim goes in the small plastic bag that holds spare hardware screws in the blade drawer.
- Holding the blade holding assembly in place with a screwdriver, carefully insert the new blade into the POT, ensuring it is fully seated. Push the blade in with a piece of soft scrap material such as thick foamcore or plastic to avoid pushing on the blade with your fingers.
- Once the blade is fully seated, start tightening the bottom screw first. This ensures the blade is held vertically, before tightening the top screw to fully install the blade.
- Reinstall the POT into the tool holder, reattach the pneumatic tube to the 'P4' slot, and initialize the tool.
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Overall WorkflowLike laser cutting, vector-based 2D drawings are used to define where the machine will cut. The depth of the cut is specified in the Zund software and can be assigned to geometry by layer. There are several different types of tools that can be used with the Zund Cutting System. The GSD has the following options available: Universal Drawing Tool (UDT) - For drawing lines with a pen. Universal Cutting Tool (UCT) - For most cutting operations Electric Oscillating Tool (EOT) - For soft materials such as cardboard, foamcore, or rubber. Pneumatic Oscillating Tool (POT) - like EOT but with greater blade throw and faster oscillation for thicker materials. Driven Rotary Tool (DRT) - For fabrics and fabric-like materials. V-Cut Tool (VCT) - For cutting bevels and v-cuts in foam core less than 1/2" in width. (Not Pictured Above) A variety of knives are available for each tool, but material presets are generally configured to make knife changes extremely rare. Only TA's may change out knives. Router Module (RMA) - For 2.5D milling of aluminum, thick plastics and other rigid board materials. The router has the following tools available:
Material type and thickness will inform which of the cutting or engraving tools can be used. Suitable ApplicationsThe Zund is best used for cutting materials that cannot be cut on the laser cutter, such as plastics and synthetic fabrics or foam rubber that release fumes, highly flammable materials like foam-core and cardboard, or cuts in materials that are larger than the size of the laser cutter bed. It may be suitable for routing smaller sheet stock that would be difficult to mount to the CNC routers, as well as materials that might require extra setup on the CNC routers, such as soft metals (aluminum, copper, brass, etc) and thick plastics, such as acrylic or expanded PVC board, but its 3-dimensional capabilities are limited. A secondary benefit of the Zund is that, because it uses blades and does not produce heat like that generated by the laser cutting process, there are no burned edges on materials. The Zund can also be used for more unusual materials for specific projects, such as wax, metal mesh, corrugated plastic, plastic films, fabric, foam and felt. The Zund is NOT to be used for materials that are easily cut on the laser cutter or the CNC's, or simply as a time saving measure, such as foam-core rectangles that could be cut by hand. The Zund cannot handle materials over 1" in most circumstances, and in general cannot do more than 1/2" with most blades. The Zund is NOT primarily a router, and should not be seen as an alternative to the AXYZ or Onsrud routers for milling jobs. The router is only used for projects approved by FabLab staff and performed under their supervision.
Because force is exerted on the material by the blade moving during cutting (unlike the laser cutter), smaller features may not come out as cleanly or detailed as they would on the laser cutter. In general, the Zund is better suited to larger features. For routing, offset for the diameter of the bit does not need to be integrated into the file, the Zund will automatically apply the appropriate offset and route along the outer or inner edge of the specified vector, not down the center. ENGRAVE will cut down the center of both open and closed curves. Route (open and closed curves) will be cut to one side of the curve or the other, using the radius of the tool as the offset. An option in the cut parameters for "inside" or "outside" will control this; watch cut direction in Cut Editor or see the dotted line in Cut Center. AccessStudents are able to make job requests and reserve up to 60 minutes each day through the App, reserving only time that is staffed by TAs. Students may request after-hours time through this system, but that time must be booked by a TA. 120 minute limit for end-of-semester, total usage, in addition to the daily 60-minute limit. TA hours are generally 10 AM - 10 PM each day, 10-6 Friday and 10-4 Saturday, 10-2 Sunday, or as able to be staffed each semester. File Organization/PrepAccepted File Types: EPS / AI (this is best) DXF (has some issue with curves, possibly the preservation of layer order) HPGL Use layers to organize and assign a machine operation to the geometry. Name the layer to correspond to desired the machine operation. Layer order also determines operation order, use the following order of operations as a guide: Cutting Methods/Operations
Correctly set up layers in both Illustrator and Rhino Files should be clean with as few control points as possible. Check file for floating control points or geometry, or unclosed shapes. When converting from Rhino/AutoCAD to Illustrator, ensure the resulting geometry is completely accurate as some changes can occur during export. Line weight and color are not read by the Zund, machining operations are assigned by layer names. If there are multiple layers of the same operation, do not label them Cut 1, Cut 2, etc., simply label all layers by the desired operation and the Zund software will automatically number them in order. Layer AliasesThere are many 'aliases' for each operation, which are the range of acceptable labels that can be interpreted by the Zund.
Import into Cut Editor, Send to QueueImport files into the editor, assign material type, thickness:
Assign methods to geometry.
Save and then send to queue, the file will then appear in the Cut Queue software. Double-click on this job to open the file in Cut Center to assign tools and cutting depths to each method, run test cuts and simulations, and to establish reference locations. HardwareVacuum Hold-DownMaximum cutting size is 98.3"x52.3" Porous cutting area will pull vacuum through and hold down nonporous materials. Can be zoned (runs from front-to-back of machine, starting on right side and moving toward left) to increase hold down in the needed section. Auto-starts at the beginning of jobs, can be set to auto-fit (narrow) to the stock. Best to check hold-down before starting job (turn on vacuum in Cut Center and try to move material) Adjustable strength (1-10, most materials use 5 by default to minimize noise) "Mask"-off areas that aren't used, but within the length of the zone using cardboard or scrap to increase hold down. When cutting porous materials, cover with thin nonporous material such as taffeta. SealgripMust be used when routing or engraving. Be sure that the console display reads 'overlay on' so that the machine knows the sealgrip is being used. CameraUsed for material border and 1/4"-dot registration. If the camera is not picking up the edge of the stock, lighting can be adjusted, as well as brightness/contrast/etc by right clicking on the camera live feed during the registration step. ModulesHold the tools. There are two universal tool holding modules, and one router module that must be attached before routing jobs and removed immediately after. Tool changes are performed by removing and installing desired tools in the tool holder modules. Tools
Cutters (Knives and Endmills)Many knives are available to insert to the tools, with differing geometry based on the intended purpose. ConsoleThe console directly controls the cutter without going through the software. The console is used primarily for performing tool changes, turning the machine on/off, and switching between online and offline mode.
Light BarriersThe Zund has safety features to prevent injury during operation. The main feature is a series of 'light barriers' that are projected from one end of the gantry to the other, on the front and back side of the cutter. If these beams are broken by someone reaching into the operating area, or if a piece of stock lifts up unexpectedly, the cutter will immediately stop operation. The LCD screen will display that a light barrier has been triggered, and will list what barrier was broken. To continue the operation after everything is cleared from the table, press 'OK' then 'ONLINE' to continue the cut from where it stopped. While the light barriers are a soft stop, the four red emergency stop buttons located on each corner of the machine are a hard stop. When an emergency stop button is pressed, the operation immediately stops, cancels the current job, and disengages the tools. To continue from an emergency stop, the triggered button must be twisted clockwise to release, then the instructions on the LCD must be followed. The tools will re-engage and require re-initialization. The job will have to be restarted from the PC. If something begins to go wrong during the cut, such as the stock moves unexpectedly, the operation can be paused by pressing any of the gray directional buttons on the console, or 'ONLINE'. This takes the machine out of online mode, pauses the operation, and lifts the tool. The cut can be continued by pressing online once the issue is resolved. SoftwareOnline ModeThe Zund has two main modes of operation, online and offline, which are switched between by pressing the red 'ON-LINE' button at the bottom right of the console. Most setup operations are performed in offline mode, such as tool changes, parameter editing, and making changes to the file through either Cut Center or Cut Editor. Online mode is activated before performing any cuts, or entering Interactive Mode through Cut Center. Most common errors occur from not being in the correct mode, but are easily fixed by pressing the button and entering the correct mode. Cut QueueThe Cut Queue lists jobs, both incomplete and completed. Order can be changed by clicking on a heading at the top of the list. We generally sort the list by date, to keep the newest jobs at the top of the queue. Once a job is completed, it will be moved to the 'Job done' queue, under the 'Job queue'. Files can be accessed the same way from either, by double clicking to open directly in Cut Center, or by selecting the 'E' icon to open directly in the Editor. Cut EditorThe Cut Editor is used for making changes to the geometry of the file, including adding, deleting, moving and scaling vectors. In addition, the starting point and cut order of individual vectors can be specified if the auto-order the program assigned does not perform satisfactory cuts. BridgingThe Cut Editor is also used to add bridges to routing jobs to ensure the cut out features are not pulled up by the dust extraction, which will ruin the job and risks damage to the bit and router.
A routing file before and after bridging. Bridges are formed during the 'Multi pass last depth' parameter in the Cut Center 'Machine step settings' window, and should be .02 at a minimum to ensure strong bridges. Setting order/direction/starting point of a vectorIf a corner or feature of your geometry is getting caught and dragged by the blade, the order and direction of each line can be altered by first selecting the view order and view direction icons. The most common cause of corners being dragged is when the blade approaches an acute angle that has already been cut previously. The tip is unsupported, and if the blade is moving too quickly, it will catch and be dragged along with the blade. This is most damaging in foamcore, where the paper tears away and the foam interior balls up. Example of a risky cut. Moving from the center-out increases the risk of the edges being torn, and an example of a safer cut, cutting from areas with more mass inwards. Pink arrows denote open contours while the light teal arrow (upper right corner) indicates closed contours. By selecting 'Reverse direction' through Tools --> Reverse direction, the editor enters a mode where every time a line is clicked, its direction reverses, denoted by the small pink arrow at the starting point of the line. This is most useful in situations where the blade approaches thin or acute features and ends up deforming or dragging them. By traveling outwards from the center of mass, the sharp corners are preserved. By selecting 'Interactive order', the order of each line can be set by clicking on each line in the desired order. Adjusting geometryPrecise adjustments to geometry is made using the 'Numerical geometry' window, accessed by highlighting the geometry to be edited and right clicking. Numerical geometry can be used to move, scale, and rotate geometry by specific values. The boxes in the upper right select whether the geometry will be moved/scaled from the center, or a specified corner. Any operation more complex, especially adding geometry, should be performed in the original program, at the Cut Editor lacks most of the features that make changes accurate, such as snap-to fuctionality. FillsWhen using the engraving tool to remove material from within an enclosed area, a toolpath needs to be generated in this area, otherwise the router will only engrave along the perimeter of the shape. There are two methods of filling available, Island fill and Hatch fill. Island fill offsets from the outer border repeatedly until the shape is filled, while Hatch fill creates a series of parallel lines within the border, either horizontally, vertically, or at a specific angle. Bit size and overlap percentage must be set correctly in Cut Editor in order to achieve the desired result when cutting. If a different-sized tool is used to cut the material than is specified when creating the fill in Cut Editor, then damage may be caused to the bit, material may not be completely removed from the area, or too much material will be removed at the perimeter of the area specified. Cut CenterThe main program used for performing cuts. Cut Center allows for assigning operation methods to layers (steps) if not completed previously, and adjust settings such as which tool and blade are being used. The Cut Center also allows for adjusting offset from the origin, performing test cuts, and adjusting and testing the vacuum. The main icon toolbar in Cut Center with the most commonly used icons labeled. Some icons, such as 'Interactive Mode' are only available when the machine is in 'Online' mode and will be grayed out unless in the correct mode. To change a layers operation parameters, double click on the layer to open the 'Machine step settings' window. The 'Method' drop down changes machining operation type. The tool and blade drop downs change the tool to be used for the operation from a preset list of available tools. In general there are usually only one or two blades and available tools per method per material, to ensure the best tool is being used. If the tools installed the machine do not match any of the listed tool for the operation, a tool change must be performed. Setting a reference pointWhen not referencing off of the borders of stock or to registration dots, a reference point must be set. Reference points are most often used when using irregular or scrap pieces of stock where there are no clean edges to reference off of and registration dots have not been built into the model. This point can be anywhere on the table, and will move the jobs origin point to the set reference point. To set a reference point:
Vacuum settingsThere are two main settings for the vacuum hold down: Vacuum width and vacuum strength. Vacuum strength is specified on a slider from 1-10 by selecting the 'Vacuum strength' icon. Vacuum width is the width of active vacuum hold down along the y axis of the table and is denoted by the dashed yellow line on the screen. Vacuum zones run from the set width on the y axis, starting from the right side, all the way to the back of the table. The vacuum can not be adjusted front to back along the x axis, but unused space should be covered with cardboard or scrap to increase the hold down under the stock. To adjust the width, right click the table and select 'Set vacuum width'. Test the vacuum after adjusting the width to ensure the full width of the stock is held down. 'Machine step settings' windows before assigning an operation, for a Thru-cut operation, and a routing operation. Adjustable operation parameters
Orange parameter boxes signify that the setting has been changed from the default. On the right side of the window is a representation of the current stock thickness next to a representation of the specified cutting depth. The red line on the routing operation represents the thickness of the Sealgrip underlay. The alternating light and dark gray rectangles represent the number and depth of each multi pass step to be performed. The green line above the material is the clearing distance. Advanced settingsThe second tab lists advanced cut settings. These should never be adjusted, with the exception of Overcut, if less or more overcut is desired during a cutting operation. Overcut defines the offset from the original start and stop point of each vector. Some knives, particularly wider geometry knives and the DRT rotary blade create a significant amount of overcut. When cutting out thin features, this overcut can unintentionally cut completely through those features. Some overcut is inevitable when using thicker materials, such as foamcore, and if pristine cuts are required, the file should be set up to use the bottom side of the foamcore as the clean side, as that side experiences much less overcut than the top side. <insert examples of overcut> Red tool labels and red 'Start job' button in Cut Center indicated that the tool specified by an operation is not currently installed in the machine and will required a tool change. <update image for ZCC version 3.1.1 graphics with yellow highlighting on the blade number> Step-by-step InstructionsCutting/Scoring/Drawing
Performing a Test CutTo verify the settings and check the quality of cut, test cuts should be performed.
Examples of Proper Cutting DepthExample of proper cutting depth - Lines should be barely visible. Example of too deep cutting depth - Easily visible and will catch fingernail if you gently run your nail over the table. Subtract from the base depth until lines are no longer clearly visible. Example of DRT TPU/Fabric cutting - Depth is fine but the tool (mostly the DRT) forced or melted part of the fiber or material into the fibers of the table. It will look as though the table is deeply cut, but should not be deeper than a proper cut. Closely inspect to ensure that it is just material remnants bonded to the fibers and not a too deep cut. Routing/Engraving
Troubleshooting/F.A.Q.
Troubleshooting
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