vibratory equipment vibrators / shakers

Transcription

vibratory equipment vibrators / shakers
Corporate
Bulletin
Ajax
Shaker
RE
Vibrator
QE
Vibrator
Table
Packer
Vibrator
LC
Conveyor
BF Feeder
BBU Bulk
Bag
Case
History
Equipment
Ads
VIBRATORY EQUIPMENT
Feeders
Conveyors
Bulk Bag Filling Systems
Table-Packers
Bag Unloading Station
VIBRATORS / SHAKERS
Ajax Shaker
QE Vibrator
RE Rotary Electric Vibrator
Pneumatic Vibrators
Renold Inc. P.O. Box A Westfield, N.Y. 14787-0546
Phone: 716-326-3121 Fax: 716-326-8243
PHONE TOLL FREE: 1-800-879-AJAX (2529)
In Canada:
Renold Canada Ltd., 121 Roy Blvd. Brantford, Ontario N3T 5N4
Phone: 519-756-6118 Fax: 519-756-1767
Toll Free: Phone 1-800-265-9970 * 1-800-265-8470 * Fax: 1-800-661-6118
Put
equipment to work
...on your most demanding application.
Rotary Electric Vibrators
▲
New “USA product”
▲
Continuous duty
▲
Factory support
engineering
▲
Inverter duty rated
▲
CE certification
▲
More value and quality
per pound of force output
Bag/Box Filling
& Weighing Stations
Reduced warehouse space for storage
▲
Reduced freight costs
▲
Fewer containers required
▲
Fewer containers to handle
▲
Reduced damage because there are no voids in
the container to collapse during stacking
VIBRATORY CONVEYORS
For more than half a century, Renold AJAX
Vibrating Conveyors have been used to transfer
granular and bulk materials. The systems can
be modified to perform many functions, like
screening, scalping, drying, cooling, grading and
dewatering. The conveyors are designed for
rugged heavy-duty applications and will provide
years of continuous trouble-free operation. Our
engineers can design a conveyor to meet
specific needs in widths from 6” to 60” and in
lengths up to 70’.
VIBRATORY TABLES/PACKERS
AUTOMATED WEIGH FILL SYSTEMS
Renold’s custom engineered Vibratory
Tables/Packers provide more material in less
space while filling and weighing materials
simultaneously. Our units provide the proper
vibration, eliminating voids and increasing the
density of materials being packaged. We
utilize a packer with our packaging systems to
get 20% to 50% more material in the
container. In addition, the units can continue
to weigh during the vibration cycle.
Renold’s filling stations are unique because they are always
weighing. In addition, they provide proper bulk materials
compaction, resulting in:
▲
BRUTE FORCE FEEDERS
Renold’s Vibratory Feeders meter bulk
materials into the process at rates of
1,000 lbs. per hour through 1,400 TPH.
Our feeders are custom designed to
meet application needs. Rugged
equipment produces the consistent
flow rates and trouble-free operation
needed for efficient processing.
ELECTRIC VIBRATORS
Renold’s Rotary Electric Vibrators are
economical and reliable motor-based
vibratory drives. No other vibrator delivers
more value and quality per pound of force
output. We offer a variety of models
operating at frequencies of 900, 1200,
1800 and 3600 RPM. Adjustable eccentric
weights allow you to vary the output force.
The R/KB-KC Series can also be used as
drives for vibratory feeders, screeners and
compaction tables.
SHAKER DRIVES
Throughout the world, Renold’s AJAX Shaker
Drives are recognized as energy efficient units
that are adaptable to countless new and
unusual application possibilities. Standard
applications include open and enclosed pan
conveyors, screeners, feeders, packing tables,
dewatering units, tampers, electronic test tables
and cable laying plows. Seven basic sizes are
offered, each of which is available with a variety
of eccentric weight selections, so a wide range
of performance is possible for a given size.
Material Handling Products • 100 Bourne St., Westfield, NY 14787-0546
Phone: 1-800-879-2529 • Fax: (716) 326-6121
In Canada: 121 Roy Blvd., Brantford, Ontario N3T 5N4
Phone: (519) 756-6118 • Fax: (519) 756-1767
E-mail: renold@cecomet.net
R/KBC06
Rotary Electric
Vibrators
Applications for Flow Aids,
Densification and Metering
KBM
▲ KBM models match
competitive mounting holes
▲ Factory support engineering
▲ More value and quality per
pound of force output
▲ Continuous duty
▲ Inverter duty rated
▲ CE certification
NEW
KBC
Model KBC
UP TO 25 TONS
OF FORCE
OUTPUT
▲ SIZING EXAMPLES
AND EQUATIONS
FOR SELECTING
VIBRATORS
TABLE OF
CONTENTS
AJAX
R/KBM and R/KBC Series
Rotary Electric Vibrators
R/KBM and R/KBC Series . . . . . . 2
Flow Aids . . . . . . . . . . . . . . . . . . . 3
Densification or Shake-out . . . . . . 4
Metering or Transporting . . . . . . . 5
3600 RPM Single Phase 110/1/60 &
230/460/3/60 . . . . . . . . . . . . . . . . . 6
1800 RPM 4 Pole 230/460/3/60 . . 7
1200 RPM 6 Pole 230/460/3/60 . . 8
900 RPM 8 Pole 230/460/3/60 . . . 9
Setting of Eccentric Weight and
Wiring Diagrams . . . . . . . . . . . . . 10
Application Data Sheet and
Capacitor Starter 115V . . . . . . . . 11
The Renold AJAX R/KBM and R/KBC Series is the most economical vibrator
drive available in the North American market today. No other electric vibrator
motor delivers more value and quality per pound of force output. The new
KBM series matches competitive mounting holes. Our full line consists of
models operating at frequencies of 900, 1200, 1800 and 3600 RPM.
Eccentric weights can be manually adjusted to vary the centrifugal force
from 0 through 100%. A suitable model can be supplied for most any type
application or environment, and are rated for continuous operation.
Special features include: foot mounting, cast metal housing, O’ring groove
sealed end covers, increased corrosion protection, external ground lug
with CE certification and optional 304SS end covers.
NOTE: 700 and 1000 RPM is also available, consult factory.
Applications
The AJAX R/KBM and R/KBC Series Rotary Electric Vibrators are specifically
suited for flow aids, densification, shake-out and metering of solid materials.
Examples defined are related to Brute Force designs.
Flow Aids (page 3)
Metering or Transporting (page 5)
When moisture, temperature or grain size of material
causes irregular flow through bins, hoppers, chutes, etc.,
vibration can be introduced to solve problems. AJAX
vibrators break up bridging in storage vessels, keeping
material in continuous motion and thus minimizing friction
along the transporting body. As a general rule, both
1800 and 3600 RPM are utilized pending the type
of application.
Dual counter rotating vibrators attached to feeders,
screeners, sorters and conveyors will meter and transport
materials. Both vibrators synchronize producing a
rectilinear motion at 30 degrees to the flow path. Special
consideration must be given to fabricating a rugged
mounting drive triangle as the vibrators must be attached
to the same one-piece mounting structure. Here, 1200
and 900 RPM are generally the recommend frequency
choices. Special attention must be given to the structures
moment of inertia when exceeding 1200 RPM. A dual
magnetic starter having a single starter with two overloads
is required for operation
(refer to page 10 diagram).
Other enhancements
include: variable speed control for tuning the flow rate or
fast/dribble feed control and
dynamic braking to cut off
the flow immediately.
Densification or Shakeout (page 4)
Dual counter-rotating vibrators
produce a rectilinear motion,
which is ideal for increasing the
density of material in a
container. The result is
20-50% more material in the
container and a reduction in
containers, warehouse space
and freight costs. The same
principle in reverse will
shake-out foundry molds. Refer
to the densification chart for
recommended frequencies and
G-level. When using vibrators
in a shake-out mode, add
one (1.0) G-level to the
densification chart.
Why buy competitive brands
whose services offer
limited experience using
vibrators. Renold conducts
personal or group training
sessions reviewing the
dynamics of designing
vibratory structures critical
to sizing vibrators.
2
Flow Aids
Find the volume of a conical vessel:
V = 1.0472 x 7.794 ft x (52 + (5 x 1) + 12)
= 1.0472 x 7.794 ft x (31)
= 253 cu ft
Model selection or sizing of Renold AJAX electric motor
vibrators for bins, hoppers and silos is based upon a
ratio of product weight in the sloped wall portion of the
vessel and the force output (Fo) of the vibrator. The
general rule should be 10:1, i.e., ten pounds of product
to one pound of force output. Generally, the following
frequencies are used as flow aids:
Frequency
Condition
Problem
3600
free flowing
dry, continuous
discharging,
uniform product size
1800
irregular flow
high moisture
content, sticky,
intervals between
discharges
Find the weight
of product:
W = 253 x 33 pcf
= 8,349 lbs
Most bins and hoppers only require one (1) vibrator
mounted 1/3 the total sloped distance from the
discharge as shown. When product is very difficult to
flow or the capacity in the sloped portion exceeds 25
tons, two or three vibrators may be required.
The vibrators should be staggered at 90 degrees
about the initial vibrator at 1/4 intervals thereafter.
When in operation each vibrator should not be
permitted to turn on simultaneously, but rather
intermittently. The use of an on/off timer will be required.
Determine the volume (V) of product in the sloped wall.
[Conical Shape ]
V = 1.0472 x vertical height x (R2 + (Rr) + r2)
Where: R = radius of the cone at the inlet
r = radius of the cone at the discharge
[Square or Rectangular Shape ]
V=
vertical height
x (B +
Bb + b)
3
Where: B = area of the pyramid at the inlet
b = area of the pyramid at the discharge
Convert all dimensions to feet. Multiply the calculated
volume by the bulk density of the product to find the
total weight.
Max product (LBS)
In sloped section
Renold AJAX
model
700
2,000
4,000
5,000
10,000
20,000
28,000
35,000
R/VBM-2M
R/KBM-1.5-2
R/KBM-2.5-2
R/KBM-4-2
R/KBM-6-2
R/KBM-12-2
R/KBM-18-2
R/KBM-20-2
HIP
Determine the vertical height (Vh):
Where: Vh = tan O x X
Example: Find the weight of material in the sloped
wall of a 10 ft diameter silo having a 60 degree slope
and a 12 inch discharge. The product will be dry free
flowing plastic pellets uniform in size with a bulk density
of 33 pcf.
INITIAL
VIBRATOR
Find the vertical height: Vh = tan 60 degrees x 4.5 ft
= 1.732 x 4.5 ft
= 7.794 ft
CONTINUOUS
CHANNEL OR
ANGLES TO
THE HIP
3
Densification
or Shake-Out
Refer to the chart below and scan the density column
with respect to type of material. We find the optimum
frequency is 1200 RPM @ 2.5 G’s.
Vibration is created by applying an alternating force to
an isolated mass. The two critical factors when
determining the proper vibration are amplitude and
frequency. Amplitude is the distance through which the
mass is moved from one extreme to another. Frequency
is the number of times the mass is moved in a given
period of time (RPMs). G-level is referred to as the ratio
of force required to change the motion of a body
(mass). Whereby, mass resists any change in motion.
Twt = 850 lbs + 400 lbs + 2500 lbs
deck
vibrators load
= 3750 lbs
If G-level equals Fo divided by Twt, then
Fo = G-level x Twt
Find the vibrator Fo: Fo =
2.5 G’s x 3750 lbs
2 vibrators
= 4687.5 lbs, each vibrator
When dual vibrators are used to produce a rectilinear
motion (up/down) for densification, we can calculate the
size/model of a vibrator by knowing the material and its
bulk density.
Refer to the 1200 RPM chart (page 8) and scan down
the force output column and match the Fo calculated.
We find the vibrators should be R/KBC-3-400-6. The
maximum Fo of each vibrator is 5628 lbs. Therefore,
the eccentric setting should be set at the following
percentage:
Fo x C
Stroke =
Twt x f2
Fo
G-level =
( resultant
stroke )
%=
4687.5
5628
Twt
= 83%
NOTE: The energy level of 2.5 G’s is very large, and in
this case we calculated for a full load vibration cycle. If
the container requires vibration at various steps during
the filling process, the eccentric setting should be
reduced to match the first vibration setpoint. Side
restraints may be required to contain the pallet/
container to prevent walking off the vibratory deck, as
the flow into the box may not be directly into the center.
Pre-Design
Example: Find the vibrator size for a packer needed to
densify a 48” square container with pallet having a
target weight of 2500 lbs. The material is a granular
powder @ 60 pcf. Assume the vibratory deck weight
to be 850 lbs., and vibrators weighing 200 lbs each.
Type
Industry
Foods
Feeds
Chemicals
Density
(ppcf)
Optimum
Acceptable
Not
Recommended
Croutons
1-15
1200/2.5
1800/2.5
900/3600
Powders/Resins
20-60
900/2.0
1200/2.0
1800/3600
Pellets/Feed
35-50
900/2.0
1800/2.0
3600
Industrial
1200/2.0
Plastic
Powders/Lime
Foundry
Refractory
Recommended Frequency/G-Level
Product
(general)
60-90
1200/2.5
900/2.0
1800/2.0
3600/2.0
Powders/Metal
100-200
3600/2.0
1800/2.0
900/1200
Sand (air set)
100
3600/1.0
1800/2.0
900/1200
Sand (green)
80-100
1800/1.5
3600/1.0
900/1200
90-110
1800/2.5
1200/2.5
900
1800/1.5
3600
Mixes
Hard Goods
(misc parts)
Stampings
3600/2.0
50/150
900/1.5
1200/1.5
4
Metering or Transporting
When dual motor vibrators are directly attached to a
trough it is referred to as a “Brute Force” design. It is
very simple to calculate the necessary vibrator
size/model by finding the required force output (Fo), if
you can project the desired stroke. The stroke, also
referred to as amplitude (peak to peak), is the resultant
action produced by these vibrators when properly
isolated. The following chart depicts the maximum
stroke electric vibrators should operate at a specific
frequency in a brute force design. As a rule of thumb,
the feed rate will most likely be considered to be
approximately 35 FPM.
Stroke
=
RPM
Max. Stroke
900
0.375”
1200
0.250”
1800
0.125”
3600
0.063”
Find the load of material in the trough:
3.43” x 30” x 72”
x 100 pcf = 428.75 lbs
12” x 12” x 12”
Find the total vibrated weight Twt:
495 lbs + 300 lbs + 428 lbs = 1223 lbs
trough
vibrators load
Stroke 0.25” =
Twt =
f2
=
Fo = 3123 lbs minimum for each vibrator
Refer to the 1200 RPM chart (page 8) and scan down
the force output column and match the Fo calculated.
We find the vibrators should be R/KBC3-350-6, having
a maximum force output of 3988 lbs. Since the
calculated Fo needs to be 3123 lbs, the vibrators
can be set to the following percentage.
Fo x C
the total force output of the vibrator(s)
a constant having a numerical
value of 70470.91
total weight, combined value of the
trough, vibrator(s) weight and load
frequency squared
NOTE: In this pre-design there were assumptions made
such as trough and vibrator weight. Always re-check
your calculations with real values.
%=
3123
3988
Pre-Design
Example: Find the vibrator size for a feeder needing to
deliver 75 TPH of sand @ 100 pcf. Assume the pan
width to be 30” wide and 72” long. Also for this example
assume the trough weight is 495 lbs and 1200 RPM
vibrators @ 150 lbs each.
= 78%
Remove the end covers and change the eccentric
percentage (page 10). Keep the covers off and start the
vibrators (momentarily) to verify each vibrator is counter
rotating, i.e. one running CW and the other CCW.
BE SAFE–insure there isn’t any person or obstacle
near the vibrators during this check. Once rotation is
correct, disconnect power, and install both end covers.
The equipment is ready for final testing.
Find the depth of product flow
75 TPH =
2 vibrators
1223 lbs x 12002
Twt x f2
Where: Fo =
C =
2Fo x 70470.91
60 sec. x 1.0 x 30” wide x depth x 100 pcf x 35 FPM
144 in.2 x 2000 lbs
Depth = 3.43”, your sides on the trough should be
a minimum of twice this value.
See page 10 (Setting Eccentric Weights) for mounting
orientation of vibrators on feeders.
5
R/KBM
3600 RPM
Single Phase 110/1/60
Mode
HP
Max
Amp
Force Draw
(lbs) 115/1/60
Wt
(lbs)
Unbal
(in-lbs)
Draw
Ref
A
B
C
D
E
F
H
K
N
P
S
R/VBM 2MS
R/KBM 1.5-2S
R/KBM 2.5-2S
R/KBM 4-2S
R/KBM 6-2S
R/KBM 12-2S
0.04
0.20
0.24
0.24
0.36
0.68
71
226
421
615
1003
2168
3.5
10
11
12
20
46
0.2
0.6
1.1
1.7
2.7
5.9
#1
#1
#1
#1
#1
#1
1.26
2.44
2.95
2.76
3.54
3.94
3.62
4.17
4.13
5.12
4.92
6.29
0.35
0.39
0.39
0.39
0.47
0.63
2.40
4.13
4.13
4.13
5.12
5.95
2.17
3.89
3.89
3.89
4.72
5.35
4.37
5.91
5.91
5.91
6.54
7.48
1.34
2.36
2.36
2.36
2.95
3.35
5.75
8.35
8.35
8.35
10.24
11.34
0.87
1.38
1.38
1.38
1.57
1.57
2.76
5.71
5.71
5.71
7.28
8.07
0.28
0.35
0.35
0.35
0.51
0.51
12
22
0.7
1.8
#1
#1
2.44
3.54
4.17
4.92
0.39
0.47
4.13
5.12
3.89
4.72
5.91
6.54
2.36
2.95
9.06
11.73
1.38
1.57
5.71
7.28
0.35
0.51
0.15
1.40
1.50
1.50
2.80
4.50
R/KBM
1800 RPM
Single Phase 110/1/60
R/KBM 6-4S 0.14
R/KBM 16-4S 0.27
259
679
1.0
1.8
*Technical data upon request
TYPE R/KBM
110/1/60 w/CAPACITOR
TYPE R/KBM
230/460/3/60
3600 RPM
TYPE R/KBM DWG #1
2 Pole 230/460/3/60
Model
HP Max Amp Draw
Force Force
(lbs) (lbs) 230 460
R/VBM 2M
R/KBM 1.5-2
R/KBM 2.5-2
R/KBM 4-2
R/KBM 6-2
R/KBM 12-2
R/KBM 18-2
R/KBM 20-2
0.04
0.20
0.24
0.24
0.36
0.68
0.81
1.08
71
226
421
615
1003
2168
2783
3397
0.2
0.6
0.6
0.6
1.0
1.6
1.8
2.2
.08
0.3
0.3
0.3
0.5
0.8
0.9
1.1
Wt
(lbs)
3.5
10
11
12
20
46
71
75
Unbal Draw
(in-lbs) Ref
0.2
0.6
1.1
1.7
2.7
5.9
7.6
9.2
#1
#1
#1
#1
#1
#1
#1
#1
A
B
C
D
E
F
H
K
N
P
S
dia.
1.26
2.44
2.95
2.76
3.54
3.94
4.72
4.72
3.62
4.17
4.13
5.12
4.92
6.29
6.69
6.69
0.35
0.39
0.39
0.39
0.47
0.63
0.79
0.79
2.40
4.13
4.13
4.13
5.12
5.95
7.13
7.13
2.17
3.89
3.89
3.89
4.72
5.35
6.29
6.29
4.37
5.91
5.91
5.91
6.54
7.48
8.27
8.27
1.34
2.36
2.36
2.36
2.95
3.35
3.98
3.98
5.75
8.35
8.35
8.35
10.24
11.34
13.98
13.98
0.87
1.38
1.38
1.38
1.57
1.57
1.69
1.69
2.76
5.71
5.71
5.71
7.28
8.07
9.29
9.29
0.28
0.35
0.35
0.35
0.51
0.51
0.67
0.67
6
1800 RPM
4 Pole 230/460/3/60
TYPE R/KBM
TYPE R/KBC1 thru R/KBC3
TYPE R/KBC5 thru R/KBC11
TYPE R/KBM DWG #1
TYPE R/KBC1 thru R/KBC3
DWG #2
TYPE R/KBC5 thru R/KBC11
DWG #3
Model
HP
Max
Force
(lbs)
Amp
Draw
230
460
R/KBM 2.5-4
R/KBM 4-4
R/KBM 6-4
R/KBM 16-4
R/KBM 30-4
R/KBM 40-4
R/KBM 55-4
R/KBM 90-4
R/KBC 1-55-4
R/KBC 1-90-4
R/KBC 2-120-4
R/KBC 2-160-4
R/KBC 3-200-4
R/KBC 5-300-4
R/KBC 5-400-4
R/KBC 11-650-4
R/KBC 11-700-4
R/KBC 11-900-4
0.11
0.14
0.14
0.24
0.42
0.46
0.68
0.81
0.7
0.9
1.5
1.7
2.4
3.2
4.4
10.7
11.4
14.8
97
194
259
679
1294
1618
2297
3559
1516
2447
3224
4311
5399
8079
10798
17517
18877
24275
0.4
0.4
0.4
0.8
1.1
1.2
1.6
2.0
1.8
2.28
3
4
6.2
9.4
9.8
23
24
32
0.2
0.2
0.2
0.4
0.6
0.6
0.8
1.0
0.9
1.14
1.5
2
3.1
4.7
4.9
11.5
12
16
Wt
(lbs)
Unbal Draw
(in-lbs) Ref
10
11
13
24
55
57
77
90
76
90
112
128
187
254
342
650
684
827
1.1
2.1
2.8
7.4
14.1
17.6
25
38.7
16.5
26.6
35.1
46.9
58.7
87.9
117.4
190.5
205.3
264
#1
#1
#1
#1
#1
#1
#1
#1
#2
#2
#2
#2
#2
#3
#3
#3
#3
#3
A
B
C
D
E
F
G
H
K
2.44
2.44
2.44
3.54
3.94
3.94
4.72
4.72
5.51
5.51
5.51
5.51
5.51
3.27
3.27
4.92
4.92
4.92
4.17
4.17
4.17
4.92
6.29
6.29
6.69
6.69
6.69
6.69
6.69
6.69
6.69
9.02
9.02
12.6
12.6
12.6
0.39
0.39
0.39
0.47
0.63
0.63
0.79
0.79
0.79
0.79
0.98
0.98
1.06
1.38
1.38
1.65
1.65
1.65
4.13
4.13
4.13
5.12
5.95
5.95
7.13
7.13
7.13
7.13
8.62
8.62
9.41
11.14
12.17
16.18
16.18
16.18
3.89
3.89
3.89
4.72
5.35
5.35
6.29
6.29
6.89
6.89
7.36
7.36
8.27
9.84
9.84
13.78
13.78
13.78
5.91
5.91
5.91
6.54
7.48
7.48
8.27
8.27
8.27
8.27
8.66
8.66
10.83
12.2
12.2
15.75
15.75
15.75
5.12
5.12
5.12
6.3
7.36
7.36
8.5
8.5
8.5
8.5
10.16
10.16
10.16
12.8
13.98
18.11
18.11
18.11
2.36
2.36
2.36
2.95
3.35
3.35
3.98
3.98
3.98
3.98
4.8
4.8
5.2
6.77
6.77
8.86
8.86
8.86
8.35
8.35
9.06
11.73
13.78
13.78
13.98
16.34
13.98
16.34
17.56
19.21
20.47
22.83
23.62
27.8
27.8
30.83
7
N
O
P
S
dia.
1.38 1.18 5.71 0.35
1.38 1.18 5.71 0.35
1.38 1.18 5.71 0.35
1.57 1.18 7.28 0.51
1.57 1.30 8.07 0.51
1.57 1.30 8.07 0.51
1.69 1.57 9.29 0.67
1.69 1.57 9.29 0.67
1.69 1.38 9.29 0.67
1.69 1.38 9.29 0.67
1.77 1.77 10.24 0.87
1.77 1.77 10.24 0.87
2.76 2.17 12.2 0.87
2.56 2.44 15.35 0.87
2.56 2.44 15.35 0.87
3.35 3.15 17.64 1.26
3.35 3.15 17.64 1.26
3.35 3.15 17.64 1.26
1200 RPM
6 Pole 230/460/3/60
TYPE R/KBM
TYPE R/KBC1 thru R/KBC3
TYPE R/KBC5 thru R/KBC11
TYPE R/KBM DWG #1
TYPE R/KBC1 thru R/KBC3
DWG #2
TYPE R/KBC5 thru R/KBC11
DWG #3
Model
R/KBM 6-6
R/KBM 15-6
R/KBM 30-6
R/KBM 40-6
R/KBM 60-6
R/KBM 90-6
R/KBC 1-60-6
R/KBC 1-90-6
R/KBC 2-165-6
R/KBC 2-200-6
R/KBC 2-240-6
R/KBC 3-325-6
R/KBC 3-350-6
R/KBC 3-400-6
R/KBC 5-520-6
R/KBC 5-815-6
R/KC8 800-6
R/KC8 900-6
R/KC8 1000-6
R/KBC 11-1550-6
R/KBC 11-1730-6
R/KBC 11-2150-6
R/KBC 11-2400-6
R/KBC 15-2700-6
R/KBC 15-3200-6
R/KBC 20-4120-6
HP
0.12
0.19
0.32
0.35
0.43
0.61
0.5
0.7
1.1
1.2
1.2
1.9
1.9
1.9
2.8
4
4.90
4.90
5.67
11.4
11.8
14.5
14.6
16.1
18.8
26.8
Max
Force
(lbs)
Amp
Draw
230
460
129
291
582
712
1035
1535
967
1226
1985
2279
2848
4264
4592
5628
7009
10755
14237
15952
17732
18229
20404
26412
27344
31090
36459
43105
0.6
1.2
0.8
1.0
1.2
1.8
1.36
1.9
2.6
3.2
3.2
4.6
4.6
4.6
8.4
10
11.4
11.4
13.2
26
28.6
33.4
33
37.2
43.4
56.8
0.3
0.6
0.4
0.5
0.6
0.9
0.68
0.95
1.3
1.6
1.6
2.3
2.3
2.3
4.2
5
5.7
5.7
6.6
13
14.3
16.7
16.5
18.6
21.7
28.4
Wt
(lbs)
Unbal Draw
(in-lbs) Ref
13
25
55
57
77
90
76
90
126
143
154
209
227
238
304
423
507
525
542
816
849
891
926
1433
1566
2029
3.2
7.1
14.2
17.4
25.3
37.6
23.7
30
48.6
55.8
69.7
104.3
112.4
137.7
171.5
263.2
348.4
390.3
433.9
446.1
499.3
646.3
669.1
760.7
892.1
1054.7
#1
#1
#1
#1
#1
#1
#2
#2
#2
#2
#2
#2
#2
#2
#3
#3
#3
#3
#3
#3
#3
#3
#3
#4
#4
#4
A
B
C
D
E
F
G
H
K
N
O
P
S
dia.
2.44
3.54
3.94
3.94
4.72
4.72
5.51
5.51
5.51
5.51
5.51
5.51
5.51
5.51
3.27
3.27
4.13
4.13
4.13
4.92
4.92
4.92
4.92
5.51
5.51
5.51
4.17
4.92
6.29
6.29
6.69
6.69
6.69
6.69
6.69
6.69
6.69
6.69
6.69
6.69
9.02
9.02
11.02
11.02
11.02
12.6
12.6
12.6
12.6
18.9
18.9
20.47
0.39
0.47
0.63
0.63
0.79
0.79
0.79
0.79
0.98
0.98
0.98
1.06
1.06
1.06
1.38
1.38
1.18
1.18
1.18
1.65
1.65
1.65
1.65
1.77
1.77
1.97
4.13
5.12
5.95
5.95
7.13
7.13
7.13
7.13
8.62
8.62
8.62
9.41
9.41
9.41
11.14
12.17
14.17
14.17
14.17
16.18
16.18
16.18
16.18
19.57
19.57
21.3
3.89
4.72
5.35
5.35
6.29
6.29
6.89
6.89
7.36
7.36
7.36
8.27
8.27
8.27
9.84
9.84
12.80
12.80
12.80
13.78
13.78
13.78
13.78
20.47
20.47
21.46
5.91
6.54
7.48
7.48
8.27
8.27
8.27
8.27
8.66
8.66
8.66
10.83
10.83
10.83
12.2
12.2
14.57
14.57
14.57
15.75
15.75
15.75
15.75
22.64
22.64
24.21
–
–
–
–
8.5
8.5
8.5
8.5
10.16
10.16
10.16
10.94
10.94
10.94
12.8
13.98
–
–
–
18.11
18.11
18.11
18.11
21.46
21.46
23.43
2.36
2.95
3.35
3.35
3.98
3.98
3.98
3.98
4.8
4.8
4.8
5.2
5.2
5.2
6.18
6.77
6.89
6.89
6.89
8.86
8.86
8.86
8.86
10.63
10.63
11.81
9.06
11.73
13.78
13.78
13.98
16.34
13.98
16.34
19.21
21.42
21.42
22.83
25
25
25.59
27.83
27.36
27.36
27.36
34.02
34.02
35.43
35.43
37.44
37.44
43.31
1.38
1.57
1.57
1.57
1.69
1.69
1.69
1.69
1.77
1.77
1.77
2.76
2.76
2.76
2.56
2.56
3.15
3.15
3.15
3.35
3.35
3.35
3.35
3.94
3.94
3.94
–
–
–
–
1.57
1.57
1.38
1.38
1.77
1.77
1.77
2.17
2.17
2.17
2.44
2.44
–
–
–
3.15
3.15
3.15
3.15
3.54
3.54
3.54
5.71
7.28
8.07
8.07
9.29
9.29
9.29
9.29
10.24
10.24
10.24
12.2
12.2
12.2
15.35
15.35
14.96
14.96
14.96
17.64
17.64
17.64
17.64
21.65
21.65
23.62
0.35
0.51
0.51
0.51
0.67
0.67
0.67
0.67
0.87
0.87
0.87
0.87
0.87
0.87
0.87
0.87
1.02
1.02
1.02
1.26
1.26
1.26
1.77
1.77
1.77
1.97
8
900 RPM
8 Pole 230/460/3/60
TYPE R/KBC1
thru R/KBC3
TYPE R/KBC5 thru R/KBC11
DWG #3
TYPE R/KBC1 thru R/KBC3
DWG #2
Draw
TYPE R/KBC5
thru R/KBC11
Model
HP
Max
Force
(lbs)
Amp
Wt
(lbs)
Unbal Draw
(in-lbs) Ref
A
B
C
230
460
R/KBC 1-60-8
0.4
544
1.3
0.65
76
23.7
R/KBC 1-90-8
0.5
845
1.5
0.75
90
36.7
#2
5.51
6.69
0.79
#2
5.51
6.69
0.79
R/KBC 2-165-8
0.7
1602
2.4
1.2
126
R/KBC 2-200-8
0.8
1971
2.8
1.4
143
69.7
#2
5.51
6.69
85.7
#2
5.51
6.69
R/KBC 2-240-8
0.8
2350
2.8
1.4
154
102.2
#2
5.51
R/KBC 3-325-8
1.7
3166
4.8
2.4
209
137.7
#2
R/KBC 3-350-8
1.7
3544
4.8
2.4
227
154.2
R/KBC 3-400-8
1.7
R/KBC 5-520-8
2.4
3923
4.8
2.4
238
5040
7.8
3.9
304
R/KBC 5-815-8
3.2
7943
10.6
5.3
D
TYPE R/KBC15 and R/KBC20
DWG #4
E
F
G
H
K
N
O
P
S
dia.
7.13 6.89
8.27
8.5
3.98 13.98 1.69
1.38 9.29 0.67
7.13 6.89
8.27
8.8
3.98 16.34 1.69
1.38 9.29 0.67
0.98
8.62 7.36
8.66 10.16
4.8
19.21 1.77
1.77 10.24 0.87
0.98
8.62 7.36
8.66 10.16
4.8
21.42 1.77
1.77 10.24 0.87
6.69
0.98
8.62 7.36
8.66 10.16
4.8
21.42 1.77
1.77 10.24 0.87
5.51
6.69
1.06
9.41 8.27 10.83 10.94
5.2
22.83 2.76
#2
5.51
6.69
1.06
9.41 8.27 10.83 10.94
5.2
25
2.76
2.17 12.2 0.87
170.6
#2
5.51
6.69
1.06
9.41 8.27 10.83 10.94
5.2
25
2.76
2.17 12.2 0.87
219.2
#3
3.27
9.02
1.38 11.14 9.84
12.2
12.8
6.77 25.59 2.56
2.44 15.35 0.87
423
345.5
#3
3.27
9.02
1.38 12.17 9.84
12.2
12.8
6.77 27.83 2.56
2.44 15.35 0.98
2.17 12.2 0.87
R/KC8 800-8
4.59
7766
10.4
5.2
507
337.8
#3
4.13 11.02 1.77 14.57 12.80 14.57
–
6.69 27.36 3.15
–
14.96 1.02
R/KC8 900-8
4.59
8736
10.4
5.2
525
380.0
#3
4.13 11.02 1.77 14.57 12.80 14.57
–
6.69 27.36 3.15
–
14.96 1.02
R/KC8 1000-8
4.32
9707
11.8
5.9
542
422.3
#3
4.13 11.02 1.77 14.57 12.80 14.57
–
6.69 27.36 3.15
–
14.96 1.02
R/KC8 1250-8
4.86
12296
12.6
6.3
580
534.9
#3
4.13 11.02 1.77 14.57 12.80 14.57
–
6.69 30.51 3.15
–
14.96 1.02
R/KC8 1500-8
4.86
14884
12.8
6.4
617
647.5
#3
4.13 11.02 1.77 14.57 12.80 14.57
–
6.69 30.51 3.15
–
14.96 1.02
R/KBC 11-1550-8
9.1
15090
22
11
816
656.4
#3
4.92
12.6
1.65 16.18 13.78 15.75 18.11 8.86 34.02 3.35
3.15 17.64 1.26
R/KBC 11-1730-8
9.4
16799
22.4
11.2
849
730.8
#3
4.92
12.6
1.65 16.18 13.78 15.75 18.11 8.86 34.02 3.35
3.15 17.64 1.26
R/KBC 11-2150-8 10.7
20877
26
13
891
908.2
#3
4.92
12.6
1.65 16.18 13.78 15.75 18.11 8.86 35.43 3.35
3.15 17.64 1.26
R/KBC 11-2400-8
11.4
23334
26.8
13.4
926
1015
#3
4.92
12.6
1.65 16.18 13.78 15.75 18.11 8.86 35.43 3.35
3.15 17.64 1.26
R/KBC 15-3600-8
13
30102
34.8
17.4
1566
1309.4
#4
5.51
18.9
1.77 19.57 20.47 22.64 21.46 10.63 37.44 3.94
3.54 21.65 1.77
18.9
1.77 19.57 20.47 22.64 21.46 10.63 39.96 3.94
3.54 21.65 1.77
R/KBC 15-4300-8 15.4
38355
42
21
1676
1668.5
#4
5.51
R/KBC 20-6000-8 18.5
48269
48.8
24.4
2205
2099.8
#4
5.51 20.47 1.97
9
21.3 21.46 24.21 23.43 11.81 43.31 3.94
3.54 23.62 1.77
Setting of Eccentric Weight
Junction Box
Lifting Lug
If adjustments are made:
• insure both ends of the vibrators’ eccentric weights equal the same percentage value
• when utilizing dual vibrators in a configuration to produce a rectilinear motion;
insure one is running CW, and one is running CCW
• when utilizing dual vibrators for feeders, and the outer eccentric weight is
thinner than the inner weight, one vibrator must be rotated 180˚ so the
vibrators synchronize when settings are less than 100%
(It is a good rule to do this all of the time)
A
60
70
B
70%
50
OUTER
WEIGHT
A
30
40
C
B
100
%
70 8 90
0
"fixed" weight
3
KBM Series
1
2
100%
90%
80%
70%
50%
KC Series
KBM
KBC
10
Capacitor Starter Wiring Diagram
KBM, 115V
Proper Hardware/Bolt Sizing
MINIMUM GRADE 5
BELLEVILLE OR
COMPRESSION
WASHER
DETERMINING BOLT LENGTHS
• Add 1/8” for all washers
• Add bolt dia. for nut height
• Add 1/4” for th’d past nut
• Round stack-up dimensions to largest quarter
EXAMPLE:
2 1/16” = next size = 2 1/4” lg bolt
Dual Magnetic Starter
Notes:
1. Fusible disconnect supplied by others
2. Control transformer always wired to
customer stated input voltage
3. Control wires are 18 awg
4. Overload size based upon amperage
draw and voltage
5. Motors should always be wired
counter rotating
Single Magnetic Starter
Notes:
1. Fusible disconnect supplied by others
2. Control transformer always wired to
customer stated input voltage
3. Control wires are 18 awg
4. Overload size based upon amperage
draw and voltage
5. Motor should always be wired to rotate
into the product load or flow
Note:
1. You can not synchronize (2) vibrators with a single starter.
2. You can hookup (2) vibrators to most VFD’s, variable speed controllers to synchronize.
3. If you require a VFD, but also need Dynamic Braking Model, you must include a dual magnetic starter
in your controls.
11
BREAKER
SETTLER
BAG FILLING
BAG FILL SYSTEMS
LARGE HOPPERS
Website: www.renold.com
FEEDERS
Go to “PRODUCTS” at top, click on “MATERIAL HANDLING.”
Scroll on left appears; click on to several other vibratory
products. All info can be downloaded.
Home Office: 100 Bourne St., Westfield, NY 14787-0546
Phone: 1-800-879-2529 • Fax: (716) 326-8243
Email: dave.anderson@renold.com
Customer Service / Application Engineering
867 Eagle Dr., Monticello, GA 31064
Phone: (706) 468-1224 • Fax: (706) 468-1223
Email: patriciahg@prodigy.net
In Canada: 121 Roy Blvd., Brantford, Ontario N3T 5N4
Phone: (519) 756-6118 • Fax: (519) 756-1767
Printed in U.S.A.
QE/01
QE QuadraEccentric Vibrators
Applications for the Food Processing Industry
Lubrication free gear set
Quiet operation 68-70 DbA
Changeable eccentricity
Coupled dual vibrators
Direct factory application
engineering assistance
U.S. Patents: 4,942,776
5,231,886
AJAX QE Quadra-Eccentric Vibrators
The Ajax Quadra-Eccentric vibrator was developed for all
oil drip free and sound sensitive applications in the food
processing industry.
• Gear set that requires no lubrication—no oil leaks
• Units operate in the range of 68-72 DbA
• Nickel plated shafts
• Polyamide 12 plastic driver gear
• Changeable eccentric weights
• Models 512 and 675 create a force output range
from 400-4,774 lbs. with an operating frequency
range of up to 1200 RPM. See rated RPM.
All eccentric weights are manufactured in cast steel.
Both model ranges (the QE 512 and QE 675) have only
two different size castings to cover the range from A to G.
Simply select which force output you require and remove the appropriate mass by drilling the weight. This gives you
the ability to change the force output very quickly, either on your shop floor prior to dispatch or when in use.
Dual QE Vibrators
As the demand in processing requires
greater production, it also requires larger
equipment which equates to more force
output from your vibrator. Renold Ajax has
tested and commissioned dual QE vibrators
for such applications. Drive shafts are
assembled left- and right-hand and
connected with a flexible coupling.
Lubrication-free Gear Set Vibrator
The QE Vibrator was introduced to the market after two years of development and rigorous testing, both in the plant
and in the field. Increased quality and value have been achieved as a result. For example, stress relieving of the nylon
gear blanks and hobbing the gear teeth individually to AMGA 9 standard, improved the quality and performance of the
QE range. Today, the QE Vibrator not only meets industry expectations, but will out-perform competitive models when
correctly selected and operated in line with the information given in this brochure.
2
Selecting a QE Vibrator
When a QE Vibrator is directly attached to a trough it is
referred to as a “Brute Force” design. It is very simple to
calculate the necessary vibrator by finding the required
force output (Fo) projecting the desired stroke. The
stroke, also referred to as amplitude (peak to peak),
is the resultant action produced by the vibrator when
properly isolated. As a general rule, brute force
conveyors should operate at 0.375” stroke @ 900 RPM
under load. The feed rate will most likely be considered
to be approximately 35 FPM.
Drill (2) 3/8” holes in both plastic covers,
see *NOTE.
Further:
Fo = 3.41 x 10 – 4 x f 2 x ER
Or
Stroke = Fo x C
Twt x f 2
ER =
Where:
Fo = the total force output of the vibrator(s)
C
= a constant having a numerical value
of 70470.91
Twt = total weight, combined value of the
trough, vibrator(s) weight and load
= frequency squared
f2
ppcf = pond per cubic foot
Fo
3.41 x 10 – 4 x f 2
If you supplement 1653 lbs. for Fo, the required ER
(unbalance, ft. lb. ) value is 5.98.
Refer to the QE Vibrator chart on page 6 and select
the vibrator on unbalanced ER value equal to the value
calculated, which is a model QE 675A.
Pre-Design
Once the QE Vibrator is mounted on the trough,
operate the unit and check the feed rate and stroke.
If parameters have changed after the “pre design,” such
as trough weight, vibrator and loads, you may find it
necessary to either increase or decrease the eccentricity,
thereby changing the stroke. Simply remove the covers
and change out the weights. QE Vibrators can be
purchased as core units and the eccentric weights
sold separately. Refer to pages 4-5 as weights can be
altered, changing the ER value by simply drilling and
removing mass. Consult the factory when doing this.
Example: Find the QE Vibrator size for a conveyor
needing to deliver 5 TPH of sand @ 100 ppcf. Assume
the pan width to be 18” wide and 72” long. Also for this
example, assume the trough weight is 205 lbs. and the
QE Vibrator @ 150 lbs.
5 TPH = 60 sec.2X 1.0 x 18” wide x depth x 100 pcf x 35 FPM
144 in. x 2000 lbs.
The resulting depth is 0.38”. The sides of the trough
should be a minimum of twice this value. This depth is
the end of the dynamic angle of repose as it leaves the
trough. The inlet will be much greater.
*NOTE: Do not exceed the maximum RPM shown on
page 6. The maximum ambient room temperature
of all units is 100 degrees Fahrenheit, or 37.7 degree
Centigrade. Always drill (2) 3/8” diameter holes at the
lowest point through each of the plastic covers to
allow for water drainage when units are subjected
to wash down. If holes are not drilled, this will cause
corrosion and washout of the bearing grease,
thus voiding the warranty of this product.
Find the load of material in the trough:
0.38” x 18” x 72”
x 100 pcf = 28.5
12” x 12” x 12”
Find the total vibrated weight Twt:
205 lbs. + 150 lbs. = 28.5 lbs.
= 383.5 lbs.
trough
vibrators
load
Stroke .375” = Fo x 70470.91 2
383.5 lbs. x 900
Fo = 1653 lbs. minimum for a vibrator
3
Ajax QE Vibrator
Means Flexibility
“Core” units can be purchased. Included are
the basic housing sub-assembly and fastener
hardware kit less the four eccentric weights
and plastic covers with seal.
Complete models can also be purchased.
You must be accurate in your designs to
predict the required stroke. If you find that
design needs to change as your project
progresses, the QE Vibrator will provide
maximum flexibility very quickly since it is
so easy to change the weights, and
therefore the force.
If flexibility in your conveyor design is a
necessity on the lower end of an A through
D range, simply purchase for your stock the
“Model “D” machined weight for either 512
or 675 QE Vibrators. The “Model D”
machined weights can be transformed
into a model “A through C” version by drilling
the appropriate diameter hole through the
weight. Always re-stamp the new weight for
future identification. All four weights fitted
into the one QE Vibrator must be identical.
4
The model E to G weight cannot be used
unless it is drilled for either a model E or F
weight. The model G weight must be specially
drilled at the factory level and filled with lead.
This new development gives us the ability
to change out the weights very quickly.
If you do not have the capability of accurately
drilling these holes, you must purchase
weights from the factory.
Refer to page 3 for calculating the required
stroke. Remember the total weight (Twt) is
the combined weight of the trough, vibrator
and the dynamic load.
The warranty of the Renold Ajax QE Vibrator
is valid only if they are selected and operated
within the guidelines set forth in this brochure.
If you have any questions on selection or
operation of these QE models, please contact
the Renold AJAX factory for assistance.
5
Ajax QE Quadra-Eccentric Vibrators
QE 512 Specifications
and Dimensions
Model
Unbalance (ER)
LB.FT.
Motor HP*
Force @
700 RPM
Force @
850 RPM
Force @ Max.
Rated RPM
Unit Weight
QE512-G
6.00
1.0
1003
1478
2946 @ 1200
96
QE512-F
5.20
1.0
869
1281
2553 @ 1200
86
QE512-E
4.50
1.0
755
1114
2220 @1200
81
QE512-D
3.85
.75
643
948
1891 @ 1200
86
QE512-C
3.35
.75
560
825
1645 @ 1200
79
QE512-B
2.90
.75
483
712
1419 @ 1200
76
QE512-A
2.50
.75
418
616
1228 @ 1200
73
Force @
850 RPM
Force @ Max.
Rated RPM
Unit Weight
*HP requirement may vary with application—value given is guide for estimating.
QE 675 Specifications
and Dimensions
Model
Unbalance (ER)
LB.FT.
Motor HP*
Force @
700 RPM
QE675-G
14.0
2
2339
3449
4774 @ 1000
180
QE675-F
12.25
1 1/2
2047
3018
4694 @ 1060
166
QE675-E
10.75
1 1/2
1796
2649
4436 @ 1100
159
QE675-D
9.25
1 1/2
1546
2279
3817 @ 1100
152
QE675-C
8.0
1
1337
1971
3301 @ 1100
161
QE675-B
7.0
1
1170
1725
2888 @ 1100
152
QE675-A
6.0
1
1003
1478
2476 @ 1100
146
*HP requirement may vary with application—value given is guide for estimating.
The warranty of every QE Vibrator is valid only when the guidelines set forth in this text are exercised for operation.
If you have questions regarding the operation of these models, please consult the factory immediately.
6
Conveyor Parts
When purchasing your QE Vibrator or AJAX Shaker, complete your design with complimentary parts such as pan arm
isolators or fiberglass belt guards. A single pan arm is capable of loads up to 75 lbs., while pan arms with booster
springs are capable of 125 lb. loads.
Renold also provides other isolation devices such as fiberglass leaf springs, coil springs, booster springs and repair
kits for your Vibrator-Shaker needs. Contact Customer Service at 800-879-2529 Extension 248, for more information.
The #26W-3 One-piece Pan Arm Assembly replaces the
#25W-3 three-piece assembly. Items 8 and 9, coil springs, are
used for amplification of stroke only. Booster springs are used
with applications to hold up the pan under heavy loads.
7
9-1/16
1-15/16
5
2-5/16
2
Item
No.
Required
Description
1
1
26W-2 Pan Arm
10202
2
1
Bolt
701-037-16-550
3
1
Hex Nut
765-037-16-000
4
1
Lockwasher
775-037-00-000
5
1
Rubber Bushing
10111
6
2
Cotter Pin
789-009-00-150
7
1
Stepped Washer
10207
8
1
Coil Spring
10203
9
1
Coil Spring
10206
6
3/8
3
9
1
2-1/2
2
4
8
Part No.
Belt Guard Kits
Renold AJAX stocks three sizes of
fiberglass belt guards with metal
backs and posts. The metal
plate is provided with sufficient
clearance holes for the
motor/shaker shafts.
It requires fitting after the
motor/shaker is assembled.
A stiffener is then welded to
the metal plate and secured
to the base. After the
sheaves and belts are fitted,
the fiberglass guard can be bolted to the post.
Drawing
9W-419
Part Number
CENTER
DIMENSION
Mild Steel
304SS
Center
Dimension
Shaker
Sizes
10400
10403
13”
5, 6, 8, 512
9W-420
10401
10404
16-1/2”
10, 12, 675
9W-421
10401
10404
25”
20
7
Distribution Network
UNITED STATES
CANADA
UNITED KINGDOM
Headquarters
Renold Canada Ltd.
Renold House, Styal Road
100 Bourne Street
121 Roy Boulevard, Brantford,
Wythenshawe, Manchester
Westfield, NY 14787-9706
Ontario N3T 5N4 Canada
M22 5WL
Contact: Dave Anderson,
Contact: Doug MacDonald,
Contact: Keith Spencer,
1-800-879-2529
519-756-6118
0161-437-5221
Fax: 1-716-326-6121
Fax: 519-756-1767
Fax: 0161-437-7782
Email: renold@cecomet.net
Put
Email: keith.spencer@renold.com
to work for your most demanding applications
SHAKER DRIVES
Throughout the world,
ELECTRIC
VIBRATORS
Renold’s AJAX Shaker
Renold’s Rotary Electric
Drives are recognized as
Vibrators are economical
energy efficient units that
are adaptable to countless
new and unusual
application possibilities.
Standard applications
include open and enclosed
and reliable motor-based
vibratory devices. No other
vibrator delivers more
value and quality per
pound of force output. We
pan conveyors, screeners,
offer a variety of models
feeders, packing tables,
operating at frequencies of
dewatering units, tampers, electronic test tables and cable
900, 1200, 1800 and 3600 RPM. Adjustable eccentric
laying plows. Seven basic sizes are offered, each of which is
weights allow you to vary the output force. The R/KB-KC
available with a variety of eccentric weight selections, so a
Series can also be used as drives for vibratory feeders,
wide range of performance is possible for a given size.
screeners and compaction tables.
QE/01
Printed in U.S.A.
NEW NEW NEW
Bulk Bag
Unloading
Stations
BB501
Model BBU 20 Shown
FOUR STANDARD MODELS
■
NEW discharger enhances product flow
■
Minimal components—less maintenance
■
Optional upgrades available
■
Custom built per application needs
The “NEW” Ajax Bulk Bag Unloader incorporates
a unique molded 1/2” thick, FDA approved polymer
discharger. The curved profile was developed to
enhance product flow utilizing minimal components.
Activating the electric vibrator increases flowability of
stubborn products, and can be pulsated to vary the
flow rate. Renold’s Bulk Bag Unloaders are designed
for flexibility and will accommodate changes without
having to purchase expensive retrofit components or
another unloading station. The discharger will accept
bags 30” square or round and larger.
Users of Bulk Unloaders receive products from many
suppliers. It is not uncommon for bulk bags to vary
in straight wall height and stirrup lengths. The upper
bag frame support can be adjusted to accommodate
these differences.
Bulk Bag Unloading Station
Build Your Own
Unloader
Plastic Discharge unit
and vibrator
Discharger body is manufactured from 1/2” thick,
FDA approved, chemically resistant, polyethylene
polymer. Provides dust free unloading of bulk bags.
Hinged and toggle lock access panel to interface with
bag discharge spout. Includes model R/KMB6-4S
Rotary Electric Vibrator to induce flow. Special
contour design, with vibrator assistance, guarantees
complete and total flow of product. This will cause
the bag bottom to follow the flow pattern.
BBU-10
Narrow economy Erecta-Frame bag frame
design with plastic discharge unit and vibrator
BBU-20
Same as BBU-10, except for welded frame.
(3” x 3” or 4” x 4”) square tubing.
BBU-30
Heavy duty welded frame (5” x 5”) square tubing
with plastic discharge unit and vibrator,
includes 2 or 3-ton (air/electric) hoist and
motorized trolley.
BBU-40
Heavy duty welded frame (4” x 4” or 5” x 5”)
square tubing with plastic discharge unit and
vibrator. Includes: Toledo Panther weigh
batching indicator, load cells and NEMA 4x
summing box, operators control panel and/or
2- or 3-ton (air/electric) hoist and motorized
trolley.
OPTIONAL COMPONENTS
•
•
•
•
•
•
8 cubic foot surge hopper with hinged cover and vibrator
Flow valve, 2 position (open/close)
Inclined screw conveyor—build to suit
Iris valve or rotary actuator
Dual side wall stimulators with vibrators
Work platforms
For more information about your process or your bag
unloading requirements, contact our Engineers in
our Material Handling Department at
1-800-879-2529
extension 242, 254 or 256
Material Handling Products
P.O. Box A, Westfield, NY 14787-0546
Phone: 1-800-879-2529 • (716)326-3121 • Fax: (716)326-8243
In Canada: 121 Roy Blvd., Brantford, Ont. N3T 5N4
Phone: (519)756-6118 • Fax: (519)756-1767
www.renoldajax.com
Traditional
Ajax Shaker Drives
Enclosed
Screener Conveyor
Model LCS-E-1276-10DFH
Energy Efficient
Electro-Mechanical
Vibratory Drives
Ajax Shakers
Model 5 through 20
Renold’s Ajax Vibrating Shaker Drives are recognized and
used as energy efficient drives for a wide variety of
vibrating equipment throughout the world. Applications
include open and enclosed pan conveyors, screeners,
feeders, packing tables, dewatering units, tampers,
electronic test tables and cable laying plows. Ajax’s
unique operating principle is applicable to countless
other new and unusual application possibilities.
Shaker USA Patented Design
#1.999.213, 2.059.754, 2.079.347,
2.178.813, 4.870.870,
D323.514
Provides:
■
Continuous operation
Long life dependability
Low maintenance schedule
■
■
Offers:
■
Easy replacement without tuning
or balancing
Totally enclosed gear driven eccentrics
26 sizes from which to choose
■
■
Open Long
Conveyor with
Side Skirt Diverters
Model LC-24284-20MF
RE Vibrator
Largest variety of frequencies
QE Vibrator
Model 512/675
are equal to
Ajax 5 thru 12
Materials
Handling Products
Call our Customer Service Department direct at
1-800-879-AJAX (2529) Ext.248, for complete details
See us at Powder
Show Booth 1323
100 Bourne St. • Westfield, NY 14787
(800)879-2529 • Fax (716)326-8243, (716)326-6121
Canada: 121 Roy Blvd., Brantford, Ont. N3T 5N4
(519)756-6118 • Fax (519)756-1767
Automatic Vibrating
Weigh Systems
Fill and Weigh
Simultaneously with a
Single On-Line System
BINS
Renold’s fully automated weigh and fill stations are designed to
integrate with your total material handling process. The Renold
system handles boxes, bins, bags and drums. Containers are
automatically indexed to the fill station, filled, weighed and data
recorded for proper labeling, all perfectly coordinated with PLC
system communication.
Patented Concept
■
■
■
Increases Productivity
Single operator
Automatic sequencing
Increased Density
■
■
■
BOXES
■
More material per container
Requires less warehouse space
Fewer containers to ship
Reduces container damage
Custom Design/ Manufacturing
■
■
■
Designed to fit existing processes
Provides greater system reliability
Interfaces with existing MHS Supervisory Network
BAGS
See us at Powder
Show Booth 1323
USA PATENTED DESIGN: 4,696,357; 5,975,155; 6,089,283; CANADIAN 1,285,962
Call John Zarycki direct at
1-800-879-AJAX (2529) Ext. 256
for complete details
AJAX FEEDERS
DELIVER!
Renold Feeders and Screener/Feeders are custom engineered and
manufactured to provide dependable delivery of bulk materials for a wide
range of applications. Sizes range from 1-1/2” wide to 72” wide. Renold
Feeders and Screeners/Feeders provide delivery rates from 1000 lbs. to
1500 tons per hour. Shaker output forces are provided by the AJAX Shaker
Drive or QE Vibrator. For more information and literature,
contact Renold toll free at
1-800-879-AJAX.
100 Bourne St. • Westfield, NY 14787
Phone: (716)326-3121 • Fax (716)326-6121
Canada: 121 Roy Blvd.,
Brantford, Ont. N3T 5N4 • (519)756-6118
AJAX FEEDERS
DELIVER!
Renold Feeders and Screener/Feeders are custom engineered and manufactured
to provide dependable delivery of bulk materials for a wide range of applications.
Sizes range from 1-1/2” wide to 72” wide. Renold Feeders and Screeners/Feeders
provide delivery rates from
1000 lbs. to 1500 tons per hour.
Shaker output forces are
provided by the AJAX Shaker
Drive or QE Vibrator. For more
information and literature,
contact Renold toll free at
1-800-879-AJAX.
100 Bourne St. • Westfield, NY 14787
Phone: (716)326-3121 • Fax (716)326-6121
Canada: 121 Roy Blvd.,
Brantford, Ont. N3T 5N4 • (519)756-6118
AJAX
VIBRATING
CONVEYORS
Reliable Cost-Effective
Transfer of Bulk Materials
Ajax vibrating conveyors are custom
designed to transfer granular and bulk
materials for a wide variety of
applications. they can also
perform functions such as:
screening, cooling, drying and
dewatering. Ajax conveyors incorporate
a heavy duty design that provides
rugged trouble-free operation.
They feature low frequency operation
to minimize structural stress
Call
1-800-879-AJAX
Material Handling Products
100 Bourne St. • Westfield, NY 14787-0546
Phone: 800-879-2529 • Fax (716)326-6121
Canada: 121 Roy Blvd., Brantford, Ont. N3T 5N4
Phone: (519)756-6118 • Fax: (519)756-1767
VIBRATORY
BELT
CONVEYORS
Equipment was custom designed to interface with an existing Carousel
Bagger for filling powdered protein into 50# bags.
50# paper bags are automatically loaded around Carousel Bagger fill head.
4 mechanical actuators lift the vibratory belt table flush with the bag bottom.
As product enters the bag, the vibrators are activated thru target weight,
then dynamically braked. The filled bag enters the sealing zone and is
palletized as the cycle is repeated every 10 seconds.
RESULT:
• Densified product
• Shorter bag lengths
• Reduced pallet stack
cube for shipping
• Less warehouse
space required
For more information email: john.zarycki@renold.com
Material Handling Products
100 Bourne St. • Westfield, NY 14787-9706
Phone: 1-800-879-2529 • Fax (716)326-8243
Canada: 121 Roy Blvd., Brantford, Ont. N3T 5N4
Phone: (519)756-6118 • Fax: (519)756-1767
Automated Bulk
Packing Weigh
Systems
Fill, weigh and densify simultaneously
Increased Productivity
■ Indexing roller conveyors for staging and accumulation
■ Single unit will accommodate bags, boxes, bins and now DRUMS
■ Models to meet Class I, Div. I requirements
■ Dust tight product seal
■ Rear-to-front bag hooks increase Operator safety
■ High frequency, high force output vibratory densification tables
■ Maximum densification within 20 seconds
■ Designed to fit existing processes
■ Complete Mechanical/Electrical Engineering staff
■ A-B, GE, Modicon and Seimens PLCs
Increased Density
■ More material per container
■ Requires less warehouse space
■ Fewer containers to ship
■ Reduces container damage
Call 1-800-879-2529
Ext. 256, 254, 237
Material Handling Products
100 Bourne St. • Westfield, NY 14787-0546
Phone: 800-879-2529 • Fax (716)326-6121
Canada: 121 Roy Blvd., Brantford, Ont. N3T 5N4
Phone: (519)756-6118 • Fax: (519)756-1767