MANUAL
GraviMaster-FGB-M05 (S)
Gravimetric Blender
Serial No. ...................
ISO 08.01.02.064.GB
986731
Rev. May 2001
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Rev. May 2001
GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 2
3.7
Settings of the user-interface
Change the rights of an operator
Change entrycode
Change date and time
Revision code of the system
Menu hierarchy
3.7.1
3.7.2
3.7.3
3.7.4
3.8
4.0
INSTALLATION
4.1
4.2
Demanded connections
Attaching
5.0
5.1
6.0
ALARMS
Alarm reports and solutions
MAINTENANCE AND REPAIR
6.1
Maintenance
6.2
Replacement of parts
6.2.1
6.3
Replacement of printed circuit
Cleaning the machine
6.4
Transportation of the GraviMaster
7.0
TECHNICAL INFORMATION
7.1
7.1.1
7.2
7.3
7.4
7.5
General machine specifications
Safety measures
User-interface specifications
Valves specifications
Air pressure cylinders specifications
Electrical diagrams
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Gravimetric Blender
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1.0
INTRODUCTION
GRAVIMETRIC FEEDING
An efficient materials blending system is an essential feature of the modern plastics
processing industry. Dosing each component on the basis of weight shows distinct
advantages over traditional volumetric systems. The quantity of material delivered is
precise and unaffected by variations in bulk density, flow characteristics and particle size.
Ferlin Plastics Automation now have a range of more than twenty blenders that deliver
the benefits of gravimetric blending at a price that makes other gravimetric ... and most
volumetric systems ... look distinctly expensive.
FGB SERIES GRAVIMETRIC BLENDERS
“GraviMaster” blending systems are available in more than twenty different models with a
throughput capacity range from 10 to 750 kg/hr for the standard units. The number of
components on the standard unit is two to six. But purpose-built units may designed for
additional feeds up to a maximum of ten and a throughput capacity up to 1500 kg/hr.
The blending units may either flow-control-valve design or have a combination with
auger-feeders. The proven “GraviMaster” blending systems are being used successfully in
Injection-moulding, Blow-moulding, Sheet-extrusion and Film-extrusion.
ACCURATE WEIGH SYSTEM
Each component is dispensed into a weigh-pan using one set of load cells. When all the
components are correctly weighed, the blend is discharged into a mixing chamber. A high
efficiency horizontal mixer is programmed to give a uniform blend which discharges to a
storage bin with suction device, or directly into the processing machine hopper.
The system is capable of extremely accurate measurements of additive, even at very small
percentages or ratios. Load cells of the highest accuracy are used, weighing to within
0.01 gm. The accuracy of the process is enhanced by the software system which is
designed to compensate in a subsequent batch for any errors arising in a preceding batch.
Overall accuracy of 0.1% can be achieved.
COMPACT AND MODULAR CONSTRUCTION
The units are designed and built as a modular construction using standard components
where possible, so that all components are readily obtainable. All components which
are in contact with the raw material are made in stainless steel. This includes hoppers,
valves, augers, weigh pan, mixer and mixing chamber. When auger feeders are installed,
these can be quickly accessed for easy cleaning. The mixing chamber and weigh pan can
be removed easily for cleaning and access. The construction is in accordance with the
essential requirements under the CE regulations.
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Gravimetric Blender
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RELIABLE PROCESS CONTROL
The FGB control system incorporates the latest in computer and microprocessor
technology for total automation of recipe entry and storage, inventory control and process
monitoring. The control panel (user-interface) is provided with a micro-controller and
industrial PC with LCD-display, functional keyboard, fiber optic communication cable (or
RS-422) and parallel printer port.
Features are:
•
•
•
•
data storage of all plant raw materials.
easy call up of materials for the formulation of recipes.
fast identification of recipes and call up for machine operation.
automatic regrind control within chosen limits, so that regrind generation is matched
with usage.
•
•
automatic additive to regrind control.
a fixed weight of blended material can be produced according to any of the stored
formulations.
•
•
screen display of all process operation.
reports of material used and batch histories can be printed on an optional printer
regularly.
•
•
storage facility for components and recipes.
functions are menu driven and take the operator through the required sequence of
actions with simple instructions.
•
the software is pre-programmed with many options for the future, these are blenders
you won’t outgrow.
Options are:
•
•
•
•
•
•
automatic stock silo control.
extra level control of the blender hoppers.
extra level control of the machine hopper.
control and data for materials management systems.
different language on the display.
automatic loading of the hoppers can be provided separately with Ferlin loaders or
others of your choice.
•
several blenders may be linked to a central user-interface to give integrated inventory
control over the whole process.
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Gravimetric Blender
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2.0
CONTROLS
When all components are available the dispense of a batch starts. The cycle begins with
closing the weigh-pan. Then each of the requested components is dispensed and weighed in
the weigh-pan. When all the components of the recipe are correctly weighed, the blend is
discharged into the mixing-chamber. A horizontal mixer mixes the components to a
uniform blend which discharges to a storage bin, or directly into the machine hopper.
2.1
Blender start-up
In this section is a short description of the normal start-up action of the blending system.
More details of the controls are described in the following sections. An emergency stop
can be made to shut-down the machine by pushing the button as indicated in drawing
1 in § 7.7.1.
Steps to follow for the start-up of the blending system:
[1] Plug the communication cable into the user-interface and control box on the blender.
[2] Connect air pressure to the blender and turn it on, 6 bar is recommended.
[3] Turn on the power. On the user-interface and control-box.
[4] Select the right language. The selected language is indicated.
Select a different language through key <↑> or <↓> and press <ENTER>.
[5] If necessary adjust date and time.
[6] Select the blender to be started.
[7] Select on the interface the desired recipe from the menu (F1)
‘controller / select recipe’
[8] Be sure there is no alarm active.
[9] Start the blender, press <START>.
The blender will now operate automatically on the select recipe.
2.2
Blender status
The control of the blender is based on a number of status. Each status gives an exact
description in which situation the controller is. The controller knows the following status:
Inactive
At the start-up of the blender several internal tests will be done automatically if the controller
can’t find a recipe. In this status the blender will not start until a recipe is edited.
Standby
The blender is complete in rest but can be started any moment by giving the start-command.
In this status recipes, parameters and debug-commands can be sent to the controller.
Operating
The blender will now produce a blend for the selected recipe.
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Pause
When the pause-command is given for a temporary stop the blender will stop after the
cycle is complete.
Stop requested
The blender is operating but has received a stop-command. The stop-command will be
executed at the end of a batch-cycle. This status will be replaced automatically with ‘standby’
if nothing is done. If a start-command is given during the status ‘stop requested’ the status
will be ‘operate’ again.
Error
The controller has detected an error and therefore the system will stop. In a sub-menu at
the operator-interface the error will be displayed. The error situation can be recovered using
the <ENTER> command. The error must be solved then.
2.3
Machine-mode
The controller can be in two modes: Automatic and Manual. The operator can change the
mode using the menu item ‘controller’. This changing of mode is only possible while the
blender has status ‘standby’.
If a controller is in Automatic-mode, the recipe will be executed without the need of
an operator. This mode is used for production purposes and is only dependent on the
settings ‘production-mode’.
In automatic mode the keys mentioned below mean:
F5
F6
F7
F8
Start-command (start-key)
Stop-command (stop-key)
Pause-command
Continue-command (clear pause)
After a start-command in Manual-mode one batch will be executed. After this the machine-
status will be ‘standby’ again. The weighbin and mixbin-valve can be controlled manually.
In manual mode the keys mentioned below meaning:
F5
F6
F7
F8
Step-command (One component of a batch)
Reset-command (Back to the first component of a batch)
Empty weighbin
Empty mixbin
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Gravimetric Blender
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2.4
Production-modes
The production-mode of the blender indicates how the production will stop in automatic-
mode. This parameter can be changed using the menu (F1) ‘controller / public parameters’.
The production-mode has three options:
Continue
The blender will not stop automatically after the start-command. The blender will continue
the production, unless the blender runs out of material or an error occurs.
Weight->Alarm
If ‘Weight->Alarm’ has been chosen, a requested weight has to be given. After a start the
requested weight will be compared with ‘produced-weight’. If both are the same or the
‘produced-weight’ higher, the controller
will send an alarm to the operator-interface. The
production will continue.
The alarm can be recovered setting the ‘production-weight’ to zero (0). This command is part
of the option-menu (F2) of the status screen.
Weight->Error
When using the option ‘Weight->Error’ a weight has to be given. After a start the requested
weight will be
compared with ‘production-weight’. If both are the same or the
‘production-weight’ higher, the controller will send an error to the operator-interface. The
production will not continue in this case.
2.5
Mixer-mode
When all components are dispensed, the contents of the weighbin will be emptied. The
mixer in the mixing chamber, which contains the dispensed components, can be put in
different modes. Choose the menu (F1) ‘controller/public parameters’.
Normal
The mixer is off during production. If the components are dumped from the weighbin into the
mixer chamber the mixer will be on for a predefined number of seconds, defined by
‘mixerOnTime’. This parameter can only be changed if this option is chosen.
Pulsing
The mixer will pulse during production. Both on- and off-time ca be defined using the
parameters mixerPulseOnTime (time on) and mixerPulseOffTime (time off). These
parameters can only be changed if this option is chosen.
Off
The mixer is always off.
On
The mixer is always on, when the machine status is active.
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Gravimetric Blender
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2.6
Dispense modes
The blender has two ways of dispensing: gravimetric and volumetric. One mode can be
selected or a combination of both. This can be defined choosing menu (F1) ‘controller /
public parameters’.
Gravimetric
All component of the batch are dispensed and measured separately. Gravimetric is more
accurate than volumetric, but takes more production time, ie., lower output.
Volumetric
All components of the batch are dispensed at the same time using the dispense time of each
component (calculated by the system). The components are dumped directly in the mixer
chamber. No measurement is done in this mode. Therefore this method is less accurate, but
the production time is faster, ie., maximum output
Combination
When combination is defined, one gravimetric will be followed by a defined number of
volumetric dispenses. This is defined by the parameter combinationRatio. This parameter can
only be defined if ‘combination’ is chosen. This mode has the best of gravimetric and
volumetric.
Use: normally the defined combination will be done (ex. 1:3). However, if the mixer chamber
is full, the process will automatically do a gravimetric dispense instead of a (possible)
volumetric one.
2.7
Batch handling
2.7.1
Production control
If a start command is given the controller will check if the blender actually can start. If a
hopper has a low-indication (optional) the controller will alarm.
Also the parameters are checked. These can be in conflict with the recipe to be executed.
The following items will be checked (if applicable):
* Empty Regrind control
- The controlled hopper must contain regrind (according to recipe)
* Stock silo control (optional)
- Controlled hopper must contain regrind (according to recipe)
* Additive to regrind
- Controlled hopper must contain additive (according to recipe)
The blender will not start unless all conditions are met. A message will be sent to the user interface.
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Gravimetric Blender
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2.7.2
Recipe to weight calculation
After a start-command the controller will calculate the requested weights of all components
of the selected recipe.
A recipe can be defined in two ways: ‘Standard’ and ‘Percentage’. These methods can
be defined in the recipe choosing menu (F1) ‘recipes / edit recipes’. The methods
‘Standard’ end ‘Percentage’ define the relation of the components (Regrind, Natural and
Additive) in a recipe.
2.7.2.1 Method Standard
The different components are defined as follows:
Regrind
Natural
Additive
:
:
:
Percentage of the batch weight
Relation between other naturals
Percentage of the totals of all naturals
Example
Batchweight
Regrind
2000.0 gr.
20.0%
Natural 1
Natural 2
Additive
4
1
5.0%
Regrind
Naturals
:
:
20.0% of 2000.0 gr.
400.0
naturals + additive = 80.0%
naturals + (0,05 * naturals) = 80.0%
naturals = 80.0/1.05 = 76.2%
natural 1 = 4/5 * 76.2 = 61.0%
natural 2 = 1/5 * 76.2 = 15.2%
1220.0
304.0
Additive
:
80.0 - 61.0 - 15.2 = 3,8%
TOTAL
76.0
2000.0
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Gravimetric Blender
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2.7.2.2 Method Percentage
The different component are defined as follows:
Regrind
Natural
Additive
:
:
:
Percentage of the batch weight
Percentage of the batch weight
Percentage of the batch weight
Total sum must be 100%.
Example
Batchweight
Regrind
Natural 1
Natural 2
Additive
2000 gr.
20.0%
60.0%
15.0%
5.0%
Regrind
:
:
:
:
20.0% of 2000.0
60.0% of 2000.0
15.0% of 2000.0
5.0% of 2000.0
400.0
1200.0
300.0
Natural 1
Natural 2
Additive
100.0
TOTAL
2000.0
2.7.3
Adding extra materials
The defined amount of the component defined in the recipes can be changed external
using some special parameters. The controller has two methods: ‘Additive to regrind’ and
‘Regrind Control’.
IMPORTANT
Addition of extra material using ‘Additive to regrind’ and ‘Regrind Control’ is only
possible when a ‘standard’ recipe is used.
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2.7.4
Additive to regrind
It is possible to dispense more additive in relation to the amount of regrind. Choose for
this definition menu (F1) ‘controller / public parameters’. A maximum of two hoppers
(additive) can be defined (additiveToRegrindHopper). The definition must be completed
defining the requested percentage (additiveToRegrindPerc).
ADDITIVE TO REGRIND
Not activated
Recipe
Activated with 2.0%
Recipe
Component
Weight (g)
Weight (g)
Regrind
Natural 1
20.0%
4
400.0
1219.0
20.0%
4
400.0
1213.0
Natural 2
Additive
1
304.8
76.2
1
303.2
83.8
5.0%
5.0% + 2.0%
2.7.5
Regrind control
The flow of ‘regrind’ is very often not continuous due to the process. There are two
methods to adjust the amount of regrind to the actual process: ‘Empty Regrind’ or ‘Stock
Silo’.
2.7.5.1 Empty regrind Control
Empty regrind control means: keep the regrind-hopper empty. The material must be
dispensed, because otherwise another parts of the process can be destroyed (regrind return
mechanism).
Through menu (F1) ‘controller / protected parameters’ the process can be activated. After
the process is started a defined amount of batches (Empty regrind wait count) must be
awaited before the percentage will be increased. The percentage will be increased in
the defined number of steps (Dispensevariation cycl.) until the requested percentage is
reached (Dispense increase).
If not enough material can be dispensed from the regrind hopper, then regrind will be reset
to the original setting (recipe).
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2.7.5.2 Stock Silo Control
A regrind silo can have (optional) three sensors to detect high- low- and middle. If the
controller has these sensors, ‘Stock-Silo’ regrind control can be activated, choosing menu
(F1) ‘controller / protected parameters’.
If the high-sensor is true, the silo is almost full. Therefore more regrind will be dispensed.
This is the same as described in ‘empty regrind control’. This will be done until the middle
sensor is not true anymore. In a defined number of steps the process will dispense the
original setting of the recipe.
If the low-sensor is true, the silo is almost empty. Therefore less regrind will be dispensed.
This is the inverse as described in ‘empty regrind control’. This will be done until the
middle sensor will become true. In a defined number of steps the process will dispense
the original setting of the recipe.
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2.7.6
Dispensing
Dispensing of the different components will start after the calculation of the related weights.
The components are dispensed in the order as defined in the recipe (gravimetric only). In
volumetric mode all components are dispensed at the same time.
Every mechanical valve has a reaction time. The controller uses the ‘Hardware Reaction
Time’ to calculate the time which the dispense valve must be activated. The ‘Hardware
Reaction Time’ is the maximum active time of the valve when no material is dispensed. The
controller uses a pulse of 5ms in the following algorithm:
OpenTime = Weight [g] / dipenseSpeed [g/s]
OpenPulses = (OpenTime [s] / 0.005 [s]) + HardwareReactionTime [Puls]
After every dispense cycle the weight is measured. The weight bin must be stable before
the weight can be measured, therefore a time delay is inserted between dispense and
measuring. When the controller starts measuring the signal must be stable for at least 1 sec.
(signal within the ‘Weighbin-variationband’)
After measuring the weight of the first dispense some calculations can be done, and with
the results parameters can be changed. Result is a more accurate next dispense. After the
first dispense of a material one of the following situation occurs:
Dispense is correct
The difference between calculated- and measured weight is less then the dispense accuracy.
In this case extra dispense tries of this material are not necessary.
Dispense not correct (too little)
The difference between calculated- and measured weight is more than the dispense
accuracy but there is less dispensed (measured) than calculated. In this case the controller
reacts according to the chosen ‘alarm-type’. The following ‘alarm-types’ are possible:
IGNORE No extra dispense-tries. Relations within the recipe will corrected by
re-calculations.
WARNING The controller tries to reach the dispense-accuracy by extra dispenses. The
extra dispenses are limited by the parameter ‘dispenseTry’. When after a
maximum number of dispense tries, the accuracy is not reached the controller
sends a warning only to the user (= The controller continues with the next
material).
ERROR
The reaction of the controller is equal to ‘WARNING’ only an error is sent
to the user when the accuracy is not reached. Now the controller waits for a
confirmation (enter) to initiate new dispense tries of the same material. This
process goes on until the dispense accuracy is reached.
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Dispense not correct (too much)
To much material has been dispensed so there is nothing the controller can do. Of course
the relations within the recipe will corrected by re-calculations.
After the first dispense try in all of the above mentioned cases a new dispense rate will
be calculated. If the measured dispenserate (measured weight / dispense time) differs from
the used dispenserate a correction can be made. A correction is only made if the difference
between the measured- and used dipenserate is less then the boundary
(dispenseRateVarBand). This method prevents the controller calculating incorrect values
e.g. if a hopper runs out of material. The new dispenserate is calculated by the next
algorithm:
dispenseRate = ((4 * dispenseRate) + (measuredWeight/dispenseTime))/5
When all components of a recipe are dispensed the contents of the weighbin is dumped
in to the mixer chamber. The weighbin dumps the material by opening a valve for a given
time. This time (weighbinDumpTime) is a parameter which can be changed. It is also
possible to start the mixer at this time (see mixer-mode). There are two conditions for
opening the weighbin valve:
Condition 1. The mixbin-vale may not be open (if present)
Dispensed material must be mixed first before it can be used. Therefore the mixbin-valve
and weighbin-valve may not be open at the same time.
Condition 2. The mixerchamber may not be full
If the input-device indicates a full mixerchamber no material may be dumped into it (it
is full)
2.7.7
Calculations
In order to be able to dispense with high accuracy, the actual measured weights will be
used to recalculate the requested weight of the next component. The dispense will be
optimised if possible in order to guarantee a good batch (good relation).
IMPORTANT
Best dispense order is:
Regrind, Natural, Additive
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Gravimetric Blender
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2.8
Datalogging
Some production data is stored. This is shown at the user interface and can also be printed.
* Batch data
- measured weight (each component)
- dispenserate of each component
- recalculation to recipe
* Total data
- Sum of batch data
* Material usage
- dispensed amount of each hopper
- percentages
The controller saves all data in battery-backup memory.
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Gravimetric Blender
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2.9
EQ-Net Certificate
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2.10
ISO Certificat
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3.0
USER INTERFACE
3.1
Operator-interface
Keyboard
3.1.1
Description:
F1 Open main menu. All other sub-menu’s can be selected
F2 Open option menu. The contents is dependent of the actual screen.
F3 Will be used during calculation
F4 Choose node number
The function keys F5 up to F8 is dependent of the machine mode (automatic, manual).
FUNCTION KEY IN MACHINE-MODE
Function key
Automatic
Start production
Stop production
Pause
Manual
Dispense one component
Mixer
Dump weightbin
Dump mixer chamber
F5
F6
F7
F8
Start after pause
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
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Besides the function key there are some special keys:
DIRECT MACHINE-CONTROL KEYS
Key
Description
# or F4
Select FGB
START
STOP
Start command, the same as F5
Stop command, the same as F6
DATA ENTRY KEYS
Key
Description
0-9
Entry of numbers
+/-
Increase and decrease function (value of field can be changed by step)
ENTER Select function. (choise is made and entered values are saved)
.
Decimal point
ESC
Escape, Leave menu without choice
(Home) (Arrow up with line) Jump to first element of row
(End)
INS
(Arrow down with line) Jump to last element of row
Insert function to add recipes and components
DELL
←
Delete function to delete recipes and components
Backspace (above DELL-key) delete the character left of the cursor
← ↑ → ↓ Cursor-keys, move cursor and menu-items
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3.1.2
User control
The user-interface consists of several screens which can be selected by a menu. A screen
consists of objects only one object in a screen is active (selected). By using the ↓ en ↑
arrow keys the actual selected object can be changed. Pressing <ENTER> activates the
selected object.
Button
After activating the button a command (or set of commands) is (are) executed. The name of
the button represents the functionality of the button.
Number input field
When a number input field is selected it can be activated by either the <ENTER> key or
just typing the numbers. The activated input field shows a cursor at the position where
the next number will be placed. To deactivate (leave) the input field use one of the the
following keys <ENTER>, <ESC>, ↓ or ↑
Text input field
The text input field is equal to a number input field but it also accepts characters. Because
the keyboard doesn’t have character-keys a special method is implemented to enter
characters.
To enter a character in a text inputield first activate the object with the <ENTER> key.
When the input field is activated a cursor is shown at the first position. At this moment it
possible to select a character with the <+> and <-> keys. After a character is chosen the
next position can be selected with the → arrow key.
Option field
Option fields are objects with a toggle function (yes/no) or (true/false). When the button
according to the option field is activated the value is toggled. The actual value of the option
field is displayed by a cross. When the cross is visible the object has the value ‘yes’ or
‘true’ otherwise the value is ‘no’ or ‘false’.
Optionlist
Optionlist fields are fields that can contain a limited set of values. The optional values
become visible as the object is activated. Now the required value can be selected by using
the ↑ and ↓ key and select it with <ENTER>.
3.2
Recipes
Recipes constitute the core of the controller. They contain all information about the
material to be produced. By the menu (F1) ‘recipes / edit recipes’ it is possible to add
recipes to the controller. One recipe consists of one or more (max 12) components which
can be changed independently.
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3.2.1
Change components
There is a components list available in the controller. The list can be used by the operator
to define recipes. The components list stores the name and type of a component and is
maximised to 100 components. The operator is free to chose a name for a component.
There are only three options namely:
Regrind
Natural
Additive
Scrap-material
Basic-material
Additive-material (e.g. masterbatch)
One component of every type is already present in the list. These components have the
name ‘no name’ and can not be deleted from the list.
To add or modify components chose the menu (F1) ‘recipes / edit components’. The next
screen will be displayed:
[0]OPERATING AUTO[ ]
STATN:[0] FGB#00: (No name)
MODE: AUTOMATIC
[ ]
STATUS
[ ]
OPERATING
------------------------
[Edit components]
Name
Type
SCR GARDEN CHAIR REGRIND
ADEG-2RN
ADEG-4RN
ANTISTATIC ALU
NATURAL
NATURAL
ADDITIVE
<ENTER> = edit component
<INSERT> = insert component
<DELETE> = delete component
F1Menu F2Option F3
F8Cont.
F4Clear
F5Start
F6Stop
F7Pauze
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 22
In the screen it is possible to select a component with the arrow keys. After a component has
been activated by <ENTER> the name and type can be changed. If the field type has been
activated an option list will appear. One of the options (Regrind, Natural or Additive) must be
chosen.
By pressing the <INS> insert-button a new component will be added to the list. The controller
places a standard name and type into the fields. The operator now can change these fields to
the correct name and type.
Deleting a component from the list can be done by pressing the <DEL> delete-key. The
component pointed to by the highlighted line will be deleted from the list.
The option-key (F2) contains two functions in the screen ‘edit components’: print components
and search components, activate one of them by selecting and push <ENTER>.
Example: Add a new component
Goal: Component with he name “WHITE” and type “ADDITIVE”
Actions:
Step: Menu (F1) ‘recipes’ <ENTER>
Step: ‘edit components’ <ENTER> (By using the arrow-keys)
Name
Type
Step: Press <INS> key (INS = insert)
Name
<
Type
[NATURAL]
>
Step: Search for the character W by using the + or - key:
<+> Starts with special characters and numbers then the alphabet
<->
Starts at the end of the alphabet
When the + or - key is hold down the character will change fast.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 23
If the character W has been found the ? key is pressed.
Name
<W>
Type
[NATURAL]
?
Step: Repeat the same procedure for the character H, I, T and E. When the whole name is
given press <ENTER>. Now the name ‘WHITE” is stored.
Name
Type
?WHITE?
[NATURAL]
Step: Press the ? key again to select the type-field.
Name
Type
[WHITE]
NATURAL
?
Step: Press <ENTER> to activate the field.
Name
Type
[WHITE]
[NATURAL
REGRIND
NATURAL
ADDITIVE
]
Step: Select ADDITIVE by using the arrow keys and confirm by pressing <ENTER>.
Name
Type
[WHITE]
?ADDITIVE
?
Step: To confirm the new component press the arrow key ? or use the <ESC> key.
Now the “ADDITIVE” component “WHITE” is added to the list. The maximum number of
components is 100.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 24
3.2.2
Add/change recipes
The terminal has the capacity for 340 recipes. This space is divided into 4 spices so every
connected FGB can contain 85 recipes. If the menu item (F1) ‘recipes / edit recipes’ is
chosen a list with recipes will be displayed.
Now recipes can be added, changed or deleted. The <DEL>-key deletes the current recipe of
course there will be a conformation for the operator. By adding <INS>-key or changing
<ENTER> the current recipe the same screen is used.
[0]OPERATING AUTO[ ]
[ ]
[ ]
STATN:[0] FGB#00: (No name)
STATUS OPERATING
MODE: AUTOMATIC
+--------------------------EDIT RECIPE
Number
Name
Colour
Batch
Interpretation
:
:
:
:
:
[ 10]
CRATE
[YELLOW
[ 2]Kg.
]
[STANDARD ]
H# Component
Quant
Alarm
Rate (g/s)
1 noname
2 noname
3 noname
5 noname
(r) 50.0
IGNORE
IGNORE
IGNORE
IGNORE
957.2
891.4
875.5
8.3
(n) 2.0
(n) 2.0
(a) 4.0
4
5
<ENTER> = edit line
<INSERT> = insert line
6
7
<DELETE> = delete line
<HOME> = sort up
8
<END>
= sort down
9
10
11
12
+-------------------------------------------------------------------------
F1Menu F2Option
F8Cont.
F3
F4Clear F5Start F6Stop F7Pauze
All fields of the recipe are visible in the screen. By selecting the objects with the arrow-keys
and activate them with the <ENTER>-key it is possible the change the them. Below a list is
given with every field of the recipe giving some extra information about the field.
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Gravimetric Blender
Page 25
FIELD OF A RECIPE
Fields
Description
Number
Name
Unique recipe number
Recipe name
Colour
Batch
Characterfield for the colour-name
Total batchweight
Interpretation Recipe calculation
Component Link hopper to component
The screen can be left by pressing the <ESC>-key. Now the terminal checks the recipe and if
it is correct it will be stored. If the recipe is not correct the operator can chose either changing
the recipe or discard all changes.
The option-key (F2) contains other functions in the screen ‘edit recipes’. The next functions
are available:
OPTION MENU IN EDIT-RECIPE
Option
Description
Copy recipe
Copies the recipe to the same or other terminal.
Find number
Find colour
Searches for the recipe with the given number.
Searches for the recipe with the given colour.
Find name
Print recipe
Searches for the recipe with the given name.
Sends the current recipe to the printer.
Print all recipes
Prints all recipes of the actual controller.
Example: Add a new recipe
Goal:
Add a 2 kg standard recipe .
Remark:
The required component names should have been added.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 26
Actions:
Step: Menu (F1) ‘recipes’ <ENTER>
Step: ‘edit recipes’<ENTER>
Name
Nr.
Colour
Step: Press the <INS> key (INS = insert)
Number:
[1]
Name:
Colour:
?
[
?
]
Batch:
[ 2.0] kg
Interpretation:
H# Component
[ STANDARD ]
Quantity. Alarm Speed (g/s) 1 2 : : 10 11 12
The name and colour of the recipe is entered in the same way as the components name
(§ 3.2.1).
Step: Press the arrow key <↓> to select the batch.
Batch:
< 2.0> kg
When the batchweight must be changed it can be done by the use of the numeric-keys
IMPORTANT
Never enter a batchweight higher then the standard value.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 27
Step: Press the arrow-key <↓> once
Interpretation:
< STANDARD>
Step: When the interpretation must be changed into PERCENTAGE press the <ENTER>
key. Now select PERCENTAGE with the arrow keys and confirm with <ENTER>.
Interpretation:
STANDARD
PERCENTAGE
Step: Press the arrow key <↓> once.
H# Component QTY Alarm Speed (g/s)
1
2
:
12
Step: Select the hopper you want to edit with the arrow-keys and press <ENTER> to
activate.
H# Component Quantity
Alarm Speed (g/s)
1
2
:
12
Step: Press <ENTER>.
Name
Type
Noname
Noname
Noname
WHITE
REGRIND
NATURAL
ADDITIVE
ADDITIVE
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 28
Step: Use the arrow-keys <↓> to select a component and press <ENTER>.
Use the arrow-key <?> to select Quantity. Enter the quantity and press <ENTER>.
Use the arrow-key <→> to select Alarmtype and press <ENTER>.
Alarm
Ignore
Ignore
Warning
Error
Step: Select an alarm type by using the arrow-keys and press <ENTER>.
It is not necessary to enter a speed (g/s) because the terminal already has entered
standard values and the GraviMaster calculates new speeds and updates the recipe.
Step: Press the arrow-key <ο> to select the next hopper number.
Depending on the model, it is possible to use upto 12 hoppers.
The terminal has a keyboard but the keyboard doesn’t contain characters. Therefore it is
possible to connect a standard AT keyboard to the terminal. This keyboard must connect to
a connector which is placed on the PCB in the terminal. When using a AT keyboard, than:
•
•
•
•
Switch power off the terminal
Disconnect the internal keypath from the PC board
Connect the AT keyboard on the PC board
Switch on the terminal
Now you can use the AT-keyboard. When you are ready, than connect the terminal-keyboard
again. This has to be done when the terminal is switched off.
3.2.3
Change current recipe
When an operator wishes to produce a new product a change of the current recipe must be
done. To change the current recipe select menu (F1) ‘controller / select recipe’. The terminal
now shows a list with all recipes. The recipe which is marked with an <↓> is the actual
recipe, this recipe is also loaded in the controller.
IMPORTANT
When a new recipe is selected be sure that all hoppers are filled with material. The controller
calculates new dispense-rates by a fast algorithm in the first 5 batches.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 29
3.3
Timely information
It is possible to get an over view of one of the connected controllers. Therefore three screens
are available on the terminal: production-screen, material usage-screen and input/output-
screen.
3.3.1
Production screen
The production-screen can be reached by selecting menu (F1) ‘production / production
status’. The production-screen displays information about the current controller. The
information on the screen is updated every 0.3 sec.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 30
OPERATING AUTO[ ]
[ ]
[ ]
STATUS:[0] FGB#00: (No name)
STATUS OPERATING
MODE: AUTOMATIC
PRODUCTION STATUS]
Production mode :
CONTINUE
Name:
Dispense mode: GRAVIMETRIC
PIR-HOUSING
CRATES
Mix mode
YELLOW
[previous]
:
PULSE
[total]
Dispensed Recipe Dispensed
Recipe
[current]
H# Type
1 REG
2 NAT
3 ADD
Recipe Requested
[ 20.0] 400.0
[ 1.0] 1523.8
[ 5.0] 76.2
Dispensed Recipe
20.0
1.0
5.0
400.0
1523.8
76.2
20.0 1600
1.0
5.0
6095
305
4
5
6
7
8
9
10
11
12
totals
[ACCEPT]
[UNDO CHANGES]
Produced weight:
0.1
82000
2000.0
8000
F1Menu
F8Cont.
F2Option
F3
F4Node F5Start
F6Stop
F7Pauze
During production it is possible to change the recipe without a change of the current recipe.
The recipe can be changed in the production-screen by selecting a field (arrow-keys). Next
enter a new value and press <ENTER> to confirm. Now the recipe is changed but the
controller uses the new values at the start of a new batch.
3.3.2
Material usage screen
The material usage screen menu (F1) ‘production / material usage’ displays the total
quantity of material witch is used ordered by hopper number. The quantities which are stored
doesn’t depend on the current recipe. The material usage screen is erased from memory by
one of the following actions:
* Command given by the operator
* After a operator prints the screen.
This is possible by using option-key (F2) and selecting the option you require and pressing
<ENTER>.
Other values witch are stored in the material usage screen are: date of the last erase-action,
number of batch-cycles and production speed (kg/hour).
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 31
3.3.3
Input & Output monitor
The input & Output screen menu (F1) ‘controller / digital I/O monitor’ displays all digital
input and output lines. Every object in the screen can be selected by using the arrow-keys.
When a output line is selected and <ENTER> is given the digital output will toggle. The
operator has control of the digital outputs when the controller is in ‘manual mode’.
3.4
Adjustment of the gravimetric blender
The controller has some system-parameters. These parameters must be entered during the
installation of the GraviMaster. The controller uses these parameters to read the weigh bin
signal correctly, to open the weigh bin-valve, control the dispense-valves or motors etc.
3.4.1
Calibration of the weigh bin
The controller uses two known (entered) calibration-points to calculate a weighline. The
controller uses this line to find a weight by every input-signal. The two calibration-points
must be entered by the operator by the menu (F1) ‘controller / calibration / loadcell’.
The calibration-procedure of the loadcell has two steps. Extra information is given to the
operator by every step. This information is displayed at the top of the screen. First be sure
that the weighbin is empty and press (F3). The weight of the empty weighbin is measured
and stored by the controller. Next step is to fill the weighbin with a reference-weight and be
sure that the input field on the terminal has the same value. Now press (F3) again and the
second calibration-point is measured and stored. The calibration-procedure is now ready.
IMPORTANT
The second calibration-point must be greater then the first one.
3.4.2
Tare of the weighbin
Due to temperature, age, overload etc. it is possible that the weighline of the controller
‘moves’. When the line has moved a zero-weight will be displayed that isn’t zero. To move
the weightline back it is possible to start a new calibration procedure. But the calibration-
procedure takes a lot of time and the weightline is correct (it only moved). The tare-function
moves the line back to its zero-point. To start the tare function enter menu (F1) ‘controller
/ calibration / loadcell-tarration’.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 32
3.4.3 Hardware-reactiontime
The adjustment of the number of pulses is very important for the autopulse system of the
FGB-M05. When dosing less than 8 gram of material, the GraviMaster will switch over to the
autopulse system. In the hardware-reactiontime the opening time can be adjusted by increasing
the clockpulses. One clockpulse is 5 ms (0,005 s).
The autopulse system does not caculate the rate in g/s but in g/puls. It calculates how many
pulses he needs for an amount of material. This is why it is very important that the opening time
of the pulse is not too long, because it cannot dose accurate anymore.
Standard adjustment:
Hopper Clockpulses Time (s)
1
2
3
4
3
4
4
3
0,015
0,020
0,020
0,015
3.5
Overview of parameters
The controller has a great number of parameters. The parameters are necessary to control
the machine with all its features. The parameters are broken down into two groups; public-
parameters and protected-parameters. Free parameters may be changed by an operator,
protected parameters may only be changed if the password is given.
3.5.1
Public parameters
Below a list is given of all parameters which are attainable by the menu (F1) ‘controller /
public parameters’.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 33
PUBLIC PARAMETERS
Parameter
Description
Init
AlarmReport
ProductionReport
Indicates if alarm-reports must be printed.
Indicates if production-reports must be printed.
If so the parameter interval-time must be given also.
No *)
No *)
Interval
Pauze (time) before printing the next production-report. 01:00.00
BatchReport
ProductionMode
Indicates if batch-reports must be printed.
No *)
Actual production-mode. There are three possible
modes; CONTINUE, WEIGHT and ALARM_
WEIGHT. If the mode WEIGHT os ALARM_
WEIGHT has been selected the parameter production
Weight must also be given.
CONTINUE
ProductionWeight
DispenseMode
The FGB stops his production when the production 100 [Kg]
Weight is reached. (productionMode must be
WEIGHT or ALARM_WEIGHT).
Actual dispense-mode. There are three possible
modes; GRAVIMETRIC, VOLUMETRIC and
COMBINATION. If the mode COMBINATION is
chosen the parameter combinationRatio must be given.
Relation between the volumetric and gravimetric
dispenses. (one gravimetric dispense and x
volumetric dispenses).
GRAVIMETRIC
CombinationRatio
MixMode
3
Actual mixermode. There are four possible modes; PULSE
ON, OFF, NORMAL and PULSE. In normal-mode
the parameter mixerOnTime must be given. In the
mode pulse the parameters mixerPulseOnTime and
mixerPulseOffTime must be given.
MixerOnTime
Time the mixer is activated after the material is
dumped out of the weighbin.
10 [s]
MixerPulseOnTime
Time the mixer is activated in pulse-mode.
Time the mixer is not activated in pulse-mode.
Percentage additive to regrind which must be added. 0 [%]
5 [s]
MixerPulseOffTime
AdditiveToRegrind
Percentage 1/2
15 [s]
AdditiveToRegrind
Hopper 1/2
Hoppernumber in which the additive is.
Hopper 5
WeighbinDumpTime
LevelControlWaitTime
Time the weighbinvalve is activated (dumping of
material into the mixerchamber).
4 [s] 0,5 kg unit
6 [s] 1,2,5 and
25 kg unit
Time between the full signal of the mixerchamber
sensor and opening the mixerchamber-valve.
8 [s]
LevelControlDumpTime Time between the free signal of the mixerchamber
sensor and closing the mixerchamber-valve.
1 [s]
*)
No = [ ], Yes = [X]
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For example if the alarm report must be activated. First select the option field by using the
up- and down-keys. Now press <ENTER> to activate the option field. If the option field
displays a [X] the alarm report is activated. The parameters must be updated into the
controller, so select the OK button and activate it by pressing <ENTER>. Updating the
parameters into the controller must be done for every parameter.
3.5.2
Protected parameters
Below a list is given of all parameters with are attainable by the menu (F1) ‘controller /
protected parameters’.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 35
PROTECTED PARAMETERS
Parameter
Description
Init
BatchWeight
Total weight of one batch. This value is copied into 0,5 [kg]
every recipe when it is created.
DispenseTry
Maximum number of tries per component to reach
maximum accuracy
4
DispenseAccuracy
Minimum accuracy for each component.
25 [%]
30 [%]
DispenseRate
CorrectionBand
Maximum deviation when a re-calculation of the
dispense-speed is done
SiloPresent
Indicates the ‘Stock-Silo’ regrind control process
is activated.
No
MaximumTare
Variation
SiloHighCount
Maximum absolute deviation from the zeropoint
of the weighbin.
Number of batches with the highness activated
before the controller initiates an alarm.
40 [g]
100
SiloLowCount
EmptyRegrind
Number of batches with the lowsensor not activated 100
before the controller initiates an alarm.
Indicates the ‘Empty Regrind’ regrind control
No
process is activated.
EmptyRegrindHopper Indicates the hopper which is used in the empty
regrind process
Hopper 1
EmptyRegrindCycles Number of batches empty regrind waits before
increasing regrind (startprocess)
1
Dispense inc/dec
Maximum percentage for the regrind control
processes
Number of steps in whitch the maximum must
10 [%]
10
Dispense
VariationCycles
LoadcellGain
LoadcellOverload
be reached.
Amplification-factor for the loadcell signal
Maximum weight in the weighbin. The controller
initiates an error on this point.
16
800 [g]
LoadcellSettleTime
Time between the dispense of the last component
and reading the weigbin-signal.
(to eliminate vibrations).
1 [s]
LoadcellWeight
BandWidth
To read a correct weight 8 samples must fit to this 10 [g]
absolute band.
FGB-Name/Nr.
Name of the controller; This name is used in the
user-interface of the terminal.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 36
3.6
Reports and overviews
There is the possibility of printing several reports and overviews. Underneath a list is made
with the reports and overviews with behind them the section and page where instructions for
printing are given.
* batch report
§ 3.5.1
§ 3.5.1
§ 3.3.2
§ 3.5.1
§ 3.2.2
§ 3.2.1
§ 5.1
* production report
* material usage report
* error report
* recipe overview
* component overview
* alarm overview
3.7
Settings of the user-interface
3.7.1
Change the rights of an operator
The terminal has some area’s which are protected by a password; protected-parameters, debug-
monitor etc. Before an operator can use, modify or see these area’s he has to perform a login
procedure. This procedure starts by choosing menu (F1) ‘system / login’ the controllers asks
now for an ID (see below). When the ID is correct the menu item login changes to logout.
To lock the system select menu (F1) ‘system / logout’ the menu item changes to login again.
Change entrycode
3.7.2
To change ID chose menu (F1) ‘system / change ID’.
IMPORTANT
Standard the ID is set to 1234. After it is changed the ID 1234 can’t be used.
There is no way to display the current ID so store the actual ID in a safe place.
When you lost the new code, please contact your dealer.
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GraviMaster-FGB-M05 (S)
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Page 37
3.7.3
3.7.4
Change date and time
Date and time of the terminal can be changed by entering menu (F1) ‘system / time and date’.
Revision code of the system
The terminal has the possibility to display the revision and those of the connected controllers.
This information can be important for system-errors when you inform the dealer. To display
this information chose menu (F1) ‘system / revision’
3.8 Menu hierarchy
PRODUCTION
CONTROLLER
Select recipe
RECIPES
SYSTEM
Production status
Material usage
Edit recipes
Login/logout
Change ID
Public parameters
Edit components
Protected parameters
Time and date
Revision
Alarm history
Cablibration >>>
Hardware reaction time
Digital I/O
Loadcell
monitor
Loadcell tarration
Select automatic
mode
Select manual mode
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 38
Reference to section:
Production
Production status
Material usage
§
3.3.1
§
3.3.2
5.1
Controller
Select recipe
Public parameters
Protected parameters
Alarm history
Calibration
§
§
§
2.1
3.5.1
3.5.2
§
Hardware reaction time§ 3.4.3
Load cell
Load cell tarration
Digital I/O monitor
§
§
§
3.4.1
3.4.2
3.3.3
Select automatic mode § 2.3
Select manual mode
§
2.3
Recipes
Edit recipes
Edit components
§
§
3.2.2
3.2.1
System
Login/logout
Change ID
Time and date
Revision
§
§
3.7.1
3.7.2
§
3.7.3
§
3.7.4
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Page 39
4.0
4.1
INSTALLATION
Services
For installation 1ph or 3ph supply is required dependent on type of unit and a 1/4” air supply
with a minimum 6bar.
4.2
Mounting
There are several ways where to place the GraviMaster, namely
-
-
-
on a frame
on a mezzanine
on the machine
Before mounting the unit first open the front panel and take out the mixing chamber.
Make sure nothing is connected yet.
The front panel can be opened by opening the fasteners.
You can take out the mixer chamber and the weigh bin when the frontdoor is open.
s
4.2. Mountingplate
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GraviMaster-FGB-M05 (S)
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The foot plate of the GraviMaster should be attached on a steel attachment plate on the frame
or mezzanine or flange pertinent to the machine.
The mounting holes are 9 mm and are positioned as shown in drawing 4.2
The unit should be mounted as stably as possible, in connection with the accuracy of the
loadcell.
Now mixer chamber, the weighbin and the front panel can be replaced.
Connect the air pressure to the regulator (max. 12 bar). Put the plugs of the GraviMaster and
the user interface in the sockets (220 V), these should be “clean”, without fluctuations and it
must not be drawn off a 400 V wire. Then the communication cable should be plugged into
the user-interface and the control-box.
The raw material supply should be connected to the hoppers. For startup refer to section 1
of chapter 2.
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 41
5.0
5.1
Alarms
Alarm reports and solutions
The operating system sends a message to the terminal when a failure is detected. The
message will be displayed and stored with date and time in the alarm history. Underneath is
a list of all possible messages, with the solutions.
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GraviMaster-FGB-M05 (S)
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Page 42
ALARMS
Alarm-message
Press enter
Description
Action to cancel alarm
Alarm already cancelled
Press enter
Operator must confirm
No control voltage
Covers open
No 24V control voltage present
Turn on the main-switch
or check fuses
Place security-cover /
mixer-chamber
Security cover not present or mixerchamber
removed
Production weight
reached
producedWeight equals produktionweight
Reset the
producedWeight
No weighbin or
calibrate
Zero weight of the weighbin is greater then
‘maximumTareVariation’
Loadcell must be
calibrated or a tare
procedure must be done.
Check the parameters *)
Parameters corrupted
The controller can’t read his parameters
correctly. All parameters will be filled with
standard values.
The controller can’t read the productiondata
(production-screen). The data will be cleared.
The hoppersensor (optional) indicates that a
hopper runs out of material.
Data corrupted
Hopper low
Confirm *)
Fill hopper with material
Hopper empty
No material is dispensed so the controller
indicates that a hopper must be empty.
Fill hopper with material and
press the start-button.***)
Loadcell not calibrated The controller can’t read the loadcell
Calibrate the weighbin
parameters correctly.
Loadcell overload
Loadcell not stable
Weight of the weighbin is greater than the
loadcellOverload parameter.
Remove material out of
the weigbin.
Check in recipe the
Weightsignal from the loadcell doesn’t fit
Press enter *) **)
the band.
Loadcell need
more samples
Controller needs more samples to generate a Press enter *)
stable weight.
Loadcell boundary error To much weight-samples doesn’t fit the band. Press enter *)
Silo high
Silo supply hopper is full for several batches. Counter will
(High sensor is activated)
automaticaly cleared.
Regrind process par
Given hoppernumbers doesn’t contain regrind Check the regrind
conflict
or percentage
control parameters
Additive regrind par
conflict
Given hoppernumber doesn’t contain additive Check the
AdditiveToRegind
parameters
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Rev. May 2001
GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 43
*)
If this error occurs frequently contact your dealer
**) Other problems which initiate this error are:
- The weighbinDumpTime too short
- Weighbin valve touches the material when mixerchamber is full
When the second problem occurs the position of the mixerchamber-sensor must be set
lower. This actions affects the total production capacity of your system.
***) Through a too short dispense valve opening time, the machine could think that there is
no material in the hopper. There are three possible reasons for this.
-1 dispense accuracy is too narrow
-2 dispense speed is too high
-3 number of dispense attempts is too low solutions:
-1 increase dispense accuracy (§ 3.5.2)
-2 adjust speed in recipe (§ 3.2.2)
-3 increase number of attempts (§ 3.5.2)
An error message on the terminal must be confirmed by pressing the <ENTER>-key. The
terminal stores all error messages these can be displayed by the menu (F1) ‘controller / alarm
history’. This screen shows the last 256 errors and the number of times the error occurred. The
error-list can de cleared by pressing (F2) option button and choose clear, with this button it is
also possible to print a report of alarms, select ‘print alarm history’ and push <ENTER>.
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Rev. May 2001
GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 44
[0]OPERATING AUTO[ ]
[ ]
[ ]
STATUS:[0] FGB#00: (No name)
STATUS OPERATING
----------------------------[ALARM HISTORY]
No control voltage
Covers are open
1
1
0
0
0
0
0
0
Loadcell overload
0
0
0
0
0
0
Loadcell not stable
Loadcell needs more samples
Loadcell boundary error
Silo full error
Silo empty error
Conflict with regrind parameter 0
Production weight reached
No Weighbin / Need calibration
Parameters are corrupted
Production data corrupted
Hopper number (n) is empty
Loadcell is not calibrated
Conflict with addi.-regr.param
0
1 Date: 06-04-94 Time: 13:14:00 No control voltage
0 Date: 06-04-94 Time: 13:14:00 Covers are open
<Home>top of list
<↑> scroll up
<↓> scroll down
F1Menu
F7Pauze
F2Option
F8Cont.
F3
F4Clear
F5Start
F6Stop
If your problems can not be solved by these directives, please contact your dealer.
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Rev. May 2001
GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 45
6.0
6.1
MAINTENANCE AND REPAIR
Make sure ,when maintenance or repair is carried out, the power is shut off (by pulling the
plugs out) and the air pressure (by disconnecting the air pressure).
Maintenance
Everything is set right and tested in the factory, adjustments should only be carried out if a
part of the machine is not working correctly
Air pressure:
Set air pressure to about 6 bar for best accuracy. However, lower
pressure will work. If your plant air fluctuates, set the regulator to the
low end so that the dispense valves always see a consistent pressure.
Level sensor:
The sensor should protrude into the mixer chamber about 1 cm past
the inside surface of the stainless mounting plate. If it protrudes too
far, it will sense the mixer blades. If it does not protrude far enough, it
will sense the mounting plate itself.
Adjusting sensor sensitivity:
At the end of the sensor is a small screw, with this the sensitivity is adjustable.
step1:
step2:
fill the mixer chamber until the sensor is covered.
turn screw counter-clockwise until the led goes on (if the led already
is on, then turn clockwise until led goes off and proceed with step 4).
turn screw clockwise until led goes off.
turn screw another 3/4 turn clockwise.
Empty the mixer chamber and check to be sure the sensor does not
react on the mixer blades.
step3:
step4:
step5:
Weighbin dump valve:The weighbin dump valve should open and close smoothly. Two
airflow regulators are attached on the cylinder. This can be adjusted
by the screw that is on top of it.
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Rev. May 2001
GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 46
6.2
Replacement of parts
Replacement of printed circuit
6.2.1
For the replacement of the printed circuit of the control-box, the cover should be removed
by unscrewing the bolts. unplug the connectors which are attached to the printed circuit.
Now unscrew all M3 bolts and remove the circuit. It is important to first disconnect the
connectors and then unscrew the bolts. attach the new printed circuit in the same way,
but in reverse.
It is wise to use a wrist band with ground cord which is connected with earth (PE). This
because of the of static electricity.
6.3
Cleaning the machine
The frequency of cleaning will depend on the number of times the raw material is changed.
For cleaning the machine the front panel, the mixer chamber, the weighbin and the mixer
should be removed (as described in section 4.2). Disconnect the electrical power and
air supply.
Clean the machine by using air pressure. Use safety-goggles when cleaning. After it has
been cleaned, put it back together in the reverse way of stripping it.
6.4
Transportation of the GraviMaster
The weigh bin should be removed, before moving the GraviMaster, this can be done as
described in the previous section. The weigh bin should be removed to prevent damaging
the loadcell. The machine can now be transported on a firm pallet.
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Rev. May 2001
GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 47
7.0
7.1
TECHNICAL INFORMATION
General machine specifications
Connecting voltage
Communication cable
Air pressure
:
:
:
1-phase 240 V
Fiber optic cable (or RS–422)
max. connecting pressure: 12 bar (+/- 170 psi)
working pressure: 4-6 bar (+/- 57-86 psi)
Sound level
Surroundings temperature
Batch weight
Machine weight
Machine dimensions
:
:
:
:
:
< 70 dB (A)
-18°C to +50°C
0,5 kg
25 kg
450 x 450 x 640 mm
7.1.1
7.2
Safety measures
The GraviMaster is secured by 1 safety switch, which is positioned on the frontdoor. When
the frontdoor is opened, the machine will stop.
User-interface specifications
Connecting voltage :
Printer connection
240 V
Parallel port
:
7.3
Valves specifications
The machine is supplied with valves from the brand MAC, type 45A-SC1-DDAJ-1KJ. The
number of valves is similar to the number of hoppers + 1 for the weighbin + 1 for the
mixer chamber valve (optional).
The connection:
(drawing 7 and 7.1) The valve of the weighbin is sealed at W1, so
connection on W2 is the only possibility. Connecting dispenser valves
H1 and H2 is as follows;
* H1-1 onto C1, as H2-1 onto C1 etc.
* H1-2 onto C2, as H2-2 onto C2 etc.
H1-1 and H1-2 should be connected to the cylinder under hopper 1,
H2-1 and H2-2 to the one under hopper 2 etc.
If there is a mixer chamber valve, it should be connected to B-1 and
B-2, one of the lines is numbered, like one side of the cylinder.
Connect the concordant ones.
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Rev. May 2001
GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 48
Drawing 7.1 Cylinder
Maschine
1
Ein
2
W
H 1
H 2
B
W= Wiegeschalenanschluss
H1= Dosierschieber 1
H2= Dosierschieber 2
B= Mischkammerschieber
Option
(
)
Drawing 7.2 Topview valves
7.4
Air pressure cylinders specifications
See specifications on cylinder.
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Rev. May 2001
GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 49
7.5
Electrical diagrams
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 50
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GraviMaster-FGB-M05 (S)
Gravimetric Blender
Page 51
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