M A G U I R E P R O D U C T S , I N C .
Edition: August 5, 2014
75
W E I G H S C A L E B L E N D E R
®
particularly when the process is not running at full blender capacity. A smaller batch size, while reducing throughput rate, will help
prevent the mix blades being covered during mix time.
Be sure level sensor is mounted in its lowest position, and increase sensitivity as much as possible. Both serve to keep a batch
from being dispensed so early as to cover the mix blades.
On units without flow control valves (FCA), increase the DLY parameter to as number as high as 50 percent of the time between
cycles. DLY is the time delay (in milliseconds) from the sensor being uncovered until we begin the batch. Increasing DLY allows
the mix chamber to empty somewhat before the next batch drops.
You may increase the mix time at the end of each batch by changing the last two digits of the MIX parameter. If throughput is very
high it may be better to run the mixer continuously. However, added mix time sometimes causes separation after an initial mixing.
Different bulk densities and static electricity both aggravate this potential for separation from excessive mixing.
If a blender is mounted on a stand over a surge hopper, there should be a FCA, automatic flow control valve, fitted to the bottom of
the blender. This valve must be plumbed so that it is closed when the level sensor is uncovered. When the sensor is covered the
valve opens to release material. The purpose of this valve is to ensure mixing. The FCV parameter delays the opening of this
valve for 6 seconds. You can increase this delay time if you feel additional mixing is required before release.
On model WSB-940, be sure the weigh bin has two baffles installed. These ensure horizontal layering (as opposed to side by side
layering) of materials prior to dropping into the mix chamber.
Bulk density and pellet shape differences, specifically smooth virgin pellets mixed with square higher density color pellets, can
separate when dropped onto a sloping pile, as exists in a hopper, Gaylord, or surge bin. The light round pellets flow like water to
the edges, while the heavier square color pellets stay put. This is difficult to correct. It is best not to drop these kinds of blends
into large containers.
Vacuum conveying can also separate materials of different bulk densities. Maintain high air velocity to minimize this.
Models WSB-MB series units use an air drive for the mix blade, instead of an electric motor.
If you are having mix problems with air drives, be sure the blades moves a full 270 degrees (3/4 turn) with each sweep. If they do
not, try the following:
Increase the air pressure. If the gauge pressure drops more then 5 pounds during operation of the blades, the air supply line is
too small.
Lower the pile in the mix chamber to reduce torque requirements on the mix blade. This is explained above.
Increase the MPO parameter from 122 (1/2 second) to 183 (3/4 second) or 244 (1 full second). This allows more time for a full mix
blade sweep to occur. You may also want to increase mix time from 10 seconds to 15 or 20 seconds so that, in spite of slower
mix blade speed, the same amount of mixing occurs.
Increasing Throughput
A correctly sized blender should have throughput that always exceeds your process requirements. If, for some reason, your
blender is not keeping up, here are a few ways to increase throughput.
1. If your blender is equipped with a flow control slide gate, under the blender, this will reduce throughput up to 25 percent.
To counter this, set the "END FULL" flag on using the *44 function explained earlier. In the END FULL mode, blending
begins even while the sensor is still covered due to flow control valve operation.
2. If your process consumes a large batch of material all at once (such as during injection and screw return time), and
material reserve is not adequate, you may "run out" of material for a few seconds while the Weigh Scale blender is
making a new batch. The *44, "END FULL" function will also correct this. Here, when the sensor is uncovered, a
completed batch is immediately available to help refill the mix chamber, providing a larger reserve to the process.
3. Increase the FUL parameter. This sets the batch size. Larger batches increase throughput. Depending on the bulk
density of your material, you may be able to increase batch size by 20 to 40 percent.
4. Turn "FAST" on. This causes rapid volumetric "timed" dispenses to occur up to 4 times after each normal gravimetric
dispense.
5. Do not confuse "reserve" with "throughput". If your blender has a temporary problem which results in your process
running out of material before you have time to remedy the problem, your "reserve" is inadequate. Add a surge hopper,
or material level alarms on individual hoppers to prevent these types of problems.
Summary of Contents for Weigh Scale Blender WSB
Page 2: ...M A G U I R E P R O D U C T S I N C Edition August 6 2014 2 W E I G H S C A L E B L E N D E R...
Page 9: ...M A G U I R E P R O D U C T S I N C Edition August 5 2014 9 W E I G H S C A L E B L E N D E R...
Page 13: ...M A G U I R E P R O D U C T S I N C Edition August 5 2014 13 W E I G H S C A L E B L E N D E R...
Page 84: ...M A G U I R E P R O D U C T S I N C Edition August 6 2014 84 W E I G H S C A L E B L E N D E R...
Page 85: ...M A G U I R E P R O D U C T S I N C Edition August 5 2014 85 W E I G H S C A L E B L E N D E R...
Page 86: ...M A G U I R E P R O D U C T S I N C Edition August 6 2014 86 W E I G H S C A L E B L E N D E R...
Page 87: ...M A G U I R E P R O D U C T S I N C Edition August 5 2014 87 W E I G H S C A L E B L E N D E R...
Page 88: ...M A G U I R E P R O D U C T S I N C Edition August 6 2014 88 W E I G H S C A L E B L E N D E R...
Page 89: ...M A G U I R E P R O D U C T S I N C Edition August 5 2014 89 W E I G H S C A L E B L E N D E R...
Page 90: ...M A G U I R E P R O D U C T S I N C Edition August 6 2014 90 W E I G H S C A L E B L E N D E R...
Page 91: ...M A G U I R E P R O D U C T S I N C Edition August 5 2014 91 W E I G H S C A L E B L E N D E R...
Page 92: ...M A G U I R E P R O D U C T S I N C Edition August 6 2014 92 W E I G H S C A L E B L E N D E R...
Page 93: ...M A G U I R E P R O D U C T S I N C Edition August 5 2014 93 W E I G H S C A L E B L E N D E R...
Page 94: ...M A G U I R E P R O D U C T S I N C Edition August 6 2014 94 W E I G H S C A L E B L E N D E R...
Page 95: ...M A G U I R E P R O D U C T S I N C Edition August 5 2014 95 W E I G H S C A L E B L E N D E R...
Page 96: ...M A G U I R E P R O D U C T S I N C Edition August 6 2014 96 W E I G H S C A L E B L E N D E R...