kecgroup power of partnership and magnetism o
scil
lati
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ine
vibrators / vibrating solenoids
inline vibrators
linear vibrators
curved motion vibrators
controllers + accessories
conveying compacting sorting
BINDER
conveying compacting sorting
about us
www.kendrionmt.com2
Our many years of experience in the development and
manufacture of electromagnetic devices plus the skills and
commitment of our employees enable us to recognise the
needs of the market. And we turn those needs into high-
quality products in cooperation with our customers.
We at KENDRION MAGNETTECHNIK achieve customer-
focused solutions in all corporate divisions. Those solutions
bring maximum benefits for customers and hence
considerably strengthen their position in their markets.
• Customer-centred market management,
• innovative product developments,
• lean, flexible logistics,
• high quality standards,
• affordable prices,
• and the power of magnetism
guarantee the success of
KENDRION MAGNETTECHNIK.
The KENDRION ELECTROMAGNETIC COMPONENTS Group
(KEC Group) sees itself as a centre of excellence in the field
of electromagnetism.
KENDRION MAGNETTECHNIK GmbH develops and
manufactures a wide range of electromagnetic products in
the most diverse variations and designs for countless
technical applications. The company grew out of the
traditional operations of Binder, Thoma and Neue Hahn
and is now Europe’s leading manufacturer of electro-
magnetic components.
Project work is our focal point. We at KENDRION
MAGNETTECHNIK take this to mean the joint development
of devices together with our customers, taking into
account special operating conditions, special requirements
and high economic efficiency. Our objective is to provide
the market with the devices it needs. With optimised costs-
benefits ratios to secure the competitiveness of our
customers.
your one-stop solution
kendrion magnettechnik -
oscillating line
www.kendrionmt.com 3
Type OLV544...
Type OMW516...
Type OSR501...
Type OAB513...
- conveying- vibrating- feeding- sieving, separating- sorting- metering
- compacting - medicine, laboratories, analysis- vibrating - diaphragm pump drives- mixing - metering and filling equipment- settling - printing and paper industry- sorting - electromagnetic tapper- metering - special machinery
- breaking up - vibrators for vibrating containers- vibrating - spiral conveyor drives- cleaning - avoidance of bridge-building in loose materials- settling - filter vibration- activating - assembly work- compacting - packaging systems
- vibrating - vibrating of chutes- testing - bunker vibration- settling - sorting systems- grading - cleaning and disposal systems- feeding - vibrating tables- dust removal - mill systems
- vibrating - medicine, laboratories, analysis- conveying - spiral conveyors- settling, compacting - sorting and feeding systems- separating - drives for vibrating conveyors- compacting - process engineering- activating - vibrating tables
Functions Applications Page
6
8
10
11
12Type OAC00....
- feeding and assembly- pharmaceuticals- weighing and filling machines- recycling- vibrating conveyors- filling equipment- laboratories, analysis
www.kendrionmt.com
the technical background
4
Definitions of terms used on datasheets
Vibrating solenoids are electromagnetic systems that
perform cyclic, sine wave-form oscillations. They func-
tion according to the principle of an oscillator with a pair
of eccentric weights operating at the mains frequency.
The oscillation frequency f is the frequency with
which the device vibrates. In the normal case operating
frequency = mains frequency.
The maximum air gap amax of a vibrating solenoid
is the average air gap occurring during operation at
which the permissible temperature rise of the energisa-
tion coil is not exceeded.
Vibrators are oscillating devices that are capable of
vibrating irrespective of the installation position.
The vibration amplitude s of a vibrating solenoid is
the difference between the maximum and minimum
sizes of the air gap during operation.
Sprung amplitude, sprung component, sprungmass and sprung load relate to the part capable of
oscillating with which a useful effect is achieved.
Unsprung amplitude, unsprung component,unsprung mass and unsprung load relate to the
part not capable of oscillating with which no useful
effect is achieved.
The optimum load for inline vibrators is the vibrating
conveyor weight that permits the installation of a stan-
dard device.
The rated power PS (rated input power) is the power
consumption at rated current and rated air gap.
Preferred voltages are the voltages of the standard
devices, e.g. 230 VAC, 50 Hz.
The reference coil temperature is the stabilised coil
temperature in the non-energised state for the intended
application. (This is important when vibrating devices
are mounted on other devices with a temperature
differing from the ambient temperature.)
The insulation class specifies the maximum tempera-
ture for the insulation of the windings
Class of protection designates the degree to which
the device is protected against external influences, e.g.
device IP 40, connection IP 64.
Design directive
Kendrion vibrating solenoids and vibrators are manufac-
tured and tested according to DIN VDE 0580 (July 2000)
“Provisions for electromagnetic devices”.
The classes of protection are based on IEC 60529 and are
specified on the data sheets.
CEThe electromagnetic products from Kendrion
Magnettechnik are components for incorporation and
operation in electrical equipment and devices. They there-
fore do not fall within the remit of the Low Voltage
Directive 73/23/EEC.
The user must ensure conformity with the EMC Directive
89/336/EEC by using corresponding switching devices or
controls. When using the recommended Kendrion acces-
sories, conformity with the EMC Directive is stated on the
respective data sheets.
TypesVibrating solenoids, vibratory drivesOSR series (Fig. 1)
The magnetic system of the vibrating solenoid is encapsu-
lated in a plastic housing. It consists of two energisation
coils and the two halves of the solenoid, the undersides of
which are connected by a permanent magnet. The mag-
netic circuit is completed by the object to be vibrated,
which represents the armature, via the air gap. If the
object to be vibrated is made from a non-magnetic ma-
terial, a corresponding armature plate must be included.
The permanent magnet incorporated in the solenoid pre-
magnetises the system and this creates a constant attrac-
tion between the solenoid and the armature.
When an AC voltage is applied to the energisation coil,
the force effect of the electromagnetic alternating field is
superimposed on the force effect of the permanent mag-
net. The frequency of the resulting force matches the fre-
quency of the AC voltage applied, which moves the
armature in the same rhythm. In order to achieve the
desired vibratory motion, the sprung load, i.e. the object
to be vibrated, must be fixed to a base plate by rubber-
metal connections, compression springs or leaf springs
(see type OSR501002).
Vibrators/Linear drivesTypes OLV504... (Fig. 2)
The solenoid of the linear vibrator consists of a round
steel housing. The energisation coil and the armature,
which is guided concentrically via a non-magnetic shaft
and held in the central position by two springs, are fitted
inside the solenoid. A permanent magnet with guiding
poles, which is located between the two energisation
coils, pre-magnetises the system. The resulting forces
acting on the armature are balanced by the arrange-
ment of the guiding poles. When an AC voltage is
applied to the energisation coil, the force effect of the
electromagnetic alternating field is superimposed on the
force effect of the permanent magnet. The frequency of
the resulting force matches the frequency of the AC
voltage applied, which moves the armature and the
shaft in the same rhythm. The linear vibrator can be
used as a vibratory drive and, fitted with an additional
weight on the armature shaft, as a vibrator.
Mounting flange
Device socket
Device plug
Bearing Permanent magnet Coil Spring
Armature
Maintain operating air gap (1-3 mm)
Armature plate
Permanent magnet
Vibrating element
Vibrator
www.kendrionmt.com
the technical background
5
The curved motion vibrator can be used as a vibratorydrive and, fitted with an additional weight on thearmature shaft, as a vibrator.
Fig. 4: Curved motion vibrator (OAB513001)
1 Solenoid2 Energisation coil3 Armature4 Permanent magnet5 Spring6 Base
Vibrating solenoidsOAC... series (Fig. 5)
Vibrating solenoids are primarily incorporated inspring–mass systems that constantly exploit theresonant frequency proximity of the entire vibratingsystem (drive and sprung device). The vibratingsolenoid generates directional, linear oscillations inthe sprung device.Coil and bobbin are encapsulated in casting resin.They are therefore not susceptible to moisture anddust and thus suitable for rough conditions.The direction of the oscillations is achieved by thegeometrical arrangement of the springs, which meansthat, for conveying, a certain oscillating angle isalways necessary. The effective amplitude here corres-ponds to twice the amplitude of the oscillating fre-quency of the whole system. Vibrating solenoids canbe infinitely regulated via the operating voltage. Theyreach the full conveying power immediately afterbeing switched on and there are no troublesome im-balance effects upon starting and stopping. This isparticularly important for metering, packaging, etc.
Tuninga) Explanation of symbols usedfo = natural frequency Hzfa = operating frequency Hz
= mains frequencyc = spring constant N/mmcs = spring constant of rubber
buffer in shearing direction N/mmd = spring thickness mmmF = weight of unsprung component
of oscillator with 2 eccentric weights kg mN = weight of sprung component
of oscillator with 2 eccentric weights kg mR = resultant weight
mR = kg
sF = vibration amplitude of unsprung mm component
sN = vibration amplitude of sprung mmcomponent
s = total vibration amplitudes = sF + sN mm
a = air gap mm1N = 0.102 kg
b) GeneralAll vibrators must be detuned for reasons of amplitudestability, i.e. the natural frequency fo of the device must notbe equal to the operating frequency fa. As a rule, thedetuning amounts to 10-20%. All vibrators used forconveying purposes must be tuned subcritically, i.e. thenatural frequency fo of the system must be greater thanthe operating frequency fa.The resonance curve is damped by the loose materialsbeing conveyed (Fig. 6). Both subcritical and supercriticaltuning results in the amplitude being reduced from a (A) tob (B).
Fig. 6: Vibration amplitude s plotted against the ratio ofoperating frequency fa to natural frequency f0.Notes:- to DIN VDE 0580 (July 2000) ICS29.020.53.020.01
(valid as manufacturer’s Declaration of Conformity)- directives 98/37/EC and 73/23/EEC- CCC certificate for China not required
We reserve the right to make changes to theproduct design.
Inline vibratorsType OMW516002 (Fig. 3)
In the inline vibrator the solenoid and its energisation coilare fixed to a base. Mounted above this is the armatureplate, with pole faces separated by an air gap and parallelwith those of the solenoid. Leaf springs positioned at anangle (approx. 20°) connect the armature plate to thebase. An attracting force prevails between the armatureand solenoid. When an AC voltage is applied to the ener-gisation coil, the force effect of the electromagnetic alter-nating field is superimposed on the force effect of the per-manent magnet (type OMW516004). The frequency ofthe resulting force matches the frequency of the ACvoltage applied, which moves the armature in the samerhythm. The angled arrangement of the leaf springscauses the armature plate, and the vibrating conveyorattached to this, to perform a curving oscillatory move-ment and therefore convey loose materials in onedirection.In the case of larger or relatively wide vibrating conveyorsit is better to use several smaller inline vibrators ratherthan a single large one.
Curved motion vibratorType OAB513001 (Fig. 4)
The solenoid of the curved motion vibrator, fixed rigidly tothe base of the device, consists of two annular shells whichenclose the energisation coil. The armature, comprisingtwo annular permanent magnets with opposite polesarranged axially and two pole discs in each case, is loca-ted between leaf springs fixed on opposite sides of thebase of the device. The system is pre-magnetised by thetwo permanent magnets. In the stationary condition oneannular pole of the solenoid is located between each pairof pole discs of the armature. When an AC voltage is ap-plied to the energisation coil, the unlike poles of armatureand solenoid attract. The frequency of the curving arma-ture movement matches the frequency of the AC voltageapplied.
mN . mF
mN + mF
1
Armature plateSprung component
Leaf spring
Base
Unsprung componentSolenoid(energisation coil + frame)
Armature plateSprung loadSprung component
Vibratingsolenoid
UnsprungloadUnsprungcomponent
∆L =
air g
ap
Subcritical tuning Supercriticaltuning
Damped curve
www.kendrionmt.com6
inline vibrators
Options
Example of orderOMW516002
230 VAC
50 Hz, 100% duty cycle
1.2 kg
Type OMW516002
bellowscontrol OCS3343303B00, 230 VAC, 2 Acontrol OCS3343304B00, 230 VAC, 3 A
Electrical connection
Sprung component
Threaded holes for fixing vibrating conveyor
Fixing side(Unsprung component)
Conveying direction
Size
OMW516001/24 51604D00OMW516002/24 51606D00OMW516003/24 51607D00OMW516004/24 51613A1
Apparent power
Ps
(VA)
14
60
93
200
Total weight
m
(kg)
0.2
1.1
3.25
8.6
Vibration amplitude
s
(approx. mm)
1.3
1.5
1.5
1.5
Technical specification
All information valid for 50 Hz. The vibration amplitude valuesare valid for the specified loads when the base is fixed to arelatively large mass. The devices can be used for loads in the
range 0.15-17 kg. Several devices can be operatedsimultaneously for larger loads.
For other loads: fit springs as indicated on page 7
Inline vibratorsfor single-phase alternating current
These inline vibrators are AC vibratory driveswith integral half-wave rectification in whichthe force effect of an electromagneticalternating field is used to generate a curvingoscillatory motion. The oscillating frequency isequal to the mains frequency.
CEThe electromagnetic products from KendrionMagnettechnik are components for incorpora-tion and operation in electrical equipment anddevices. They therefore do not fall within theremit of the Low Voltage Directive73/23/EEC. The user must ensure conformitywith the EMC Directive 89/336/EEC by usingcorresponding switching devices or controls.When using the recommended Kendrionaccessories, conformity with the EMC Directiveis stated on the respective data sheets. Theproducts are manufactured and testedaccording to DIN VDE 0580 (July 2000).
When using these devices, please read "TheTechnical Background" and the “GeneralTechnical Information” (see page 14) first.
Standard rated voltage:230 V AC, 50 Hz
Class of protection: IP 54 / type 516004: IP 00
Options: bellows for inline vibrators with enhancedcorrosion protection or for covering the device.
Class of protection II /type 516004: I
Insulation class: F
Connecting line: H05 VV-F 2 x 1 cable, length approx. 1 mThe operating principle is based on mains frequency = operatingfrequency.We recommend our control type OCS 33 43303B00 or33 43304B00 for the individual tuning of the vibrationamplitude.
We reserve the right to make changes to the product design. Please note ordering data!
Optimum load
(kg)
0.52
1.2
6.2
14
Max. permissiblevibration amplitude
s
(mm)
1.3
1.6
1.6
1.6
www.kendrionmt.com 7
inline vibrators
Type OMW516001 (24 51604D00) Type OMW516002 (24 51606D00)
Type OMW516004 (24 51613A00)Type OMW516003 (24 51607D00)
Type OMW516003 (24 51607D00)
Type OMW516001 (24 51604D00) Type OMW516002 (24 51606D00)
Type OMW516004 (24 51613A00)
with springs fitted
Normal stroke s
standard
with springs fitted
Normal stroke s
standard
with springs fitted
Normal stroke s
standard
with springs fitted
Normal stroke s
standard
linear vibrators
www.kendrionmt.com8
Example of orderOLV544001
230 VAC
50 Hz, with mounting flange
Type OLV504001
Optionscontrol OCS3343303B00, 2 Acontrol OCS3343304B00, 3 Adevice socket, material No. 430006additional weight, mounting flange
Type OLV504001with fixing nutwith device socketto DIN EN 175301-803(DIN 43650)
Type OLV544001with fixing nutwith additional weightwith device socketto DIN EN 175301-803(DIN 43650)
Type OLV514001with mounting flangewith device socketto DIN EN 175301-803(DIN 43650)
Type OLV554001with mounting flangewith additional weightwith device socketto DIN EN 175301-803(DIN 43650)
Versions
Linear vibratorsfor single-phase alternating current
These vibrators are AC vibratory driveswith permanent pre-magnetisation inwhich the force effect of an electromagne-tic alternating field is used to generate alinear oscillatory motion. The oscillatingfrequency is equal to the mains frequency.
CEThe electromagnetic products from KendrionMagnettechnik are components for incorpora-tion and operation in electrical equipment anddevices. They therefore do not fall within theremit of the Low Voltage Directive73/23/EEC. The user must ensure conformitywith the EMC Directive 89/336/EEC by usingcorresponding switching devices or controls.When using the recommended Kendrionaccessories, conformity with the EMC Directiveis stated on the respective data sheets.
The products are manufactured and testedaccording to DIN VDE 0580 (July 2000).
When using these devices, please read “The Technical Background“and the “General Technical Information” (see page 14) first.
Standard version:types: OLV514001 /21 51408B00OLV554001 /21 55408B00
Standard rated voltage: 230 V AC, 50 Hz
Other frequencies and rated voltages up to max. 400 VAC, 50 Hzare possible on request (subject to a surcharge).
Max. permissiblevibrationamplitude
s
mm
7
6
Vibration amplitudewithout additionalweight 250 g
s
approx. mm
5.5
-
Apparentpower
Ps
VA
54
54
Total weightwithout additional weight
m
kg
1.5
1.5
Vibration amplitudewith additionalweight 250 g
s
approx. mm
-
5.5
Armatureweight
mA
kg
0.08
0.08
Technical specification
The values apply when the housing is fixed to a relatively large mass.Additional weights > 250 g should be avoided because otherwise themaximum permissible vibration amplitude is exceeded.
Rated voltages:230 VAC, 50 Hz or, for example, 24 VAC, 50 HzClass of protection: device IP 40, connectionIP 65, or with lead wires, depending on installationsituation
Insulation class: B
Accessories: We recommend our control typeOCS 33 43303B00 or 33 43304B00 for theindividual tuning of the vibration amplitude.
We reserve the right to make changes to theproduct design.Please note ordering data!
Type
OLV504001/21 50408B1OLV514001/21 51408B1OLV544001/21 54408B1OLV554001/21 55408B1
linear vibrators
www.kendrionmt.com 9
Dimensions (mm)
Type OLV504001/21 50408B1with fixing nutwith device socketto DIN EN 175301-803(DIN 43650)
Type OLV514001/21 51408B1with mounting flangewith device socketto DIN EN 175301-803(DIN 43650)
Type OLV554001/21 55408B1with mounting flangewith additional weightwith device socketto DIN EN 175301-803(DIN 43650)
The thread on the opposite side to the push bar, forscrewing on the fixing nut or the mounting flange, isprotected by a rubber cap.
These dimensions also apply to devices without an additional weight in which the fixing nut or the mountingflange is screwed onto the side opposite to the push bar.
1
Type OLV544001/21 54408B1with fixing nutwith additional weightwith device socketto DIN EN 175301-803(DIN 43650)
vibrating solenoids
www.kendrionmt.com10
Example of orderOSR101001230 VAC50 Hzwith 2 m connecting cable
Type OSR501001
Options- without magnetic fixing- with cable and plug- with armature plate
Vibrating solenoidsfor single-phase alternating current
These vibratory drives are ACoscillating drives with permanent pre-magnetisation in which the force effectof an electromagnetic alternating fieldis used to generate a linear oscillatorymotion. The operating frequency isequal to the mains frequency. Theattraction forces depend on the airgap. The maximum size of the air gapmay not be exceeded. To generate theoscillations, and when using themagnetic fixing, a flat iron plate atleast 1.5 mm thick must be used asthe armature (e.g. wall of container).
CEThe electromagnetic products fromKendrion Magnettechnik are componentsfor incorporation and operation in electri-cal equipment and devices. They there-fore do not fall within the remit of theLow Voltage Directive 73/23/EEC. Theuser must ensure conformity with the EMCDirective 89/336/EEC by using corres-ponding switching devices or controls.
When using the recommended Kendrion accessories,conformity with the EMC Directive is stated on therespective data sheets.
The products are manufactured and tested according toDIN VDE 0580 (July 2000).
When using these devices, please read “The TechnicalBackground" and the “General Technical Information” (see page 14) first.
Standard rated voltage: 230 V AC, 50 HzClass of protection: device IP 60, connection – dependson installation situationInsulation class: E
Accessories: We recommend our control type OCS 3343303B00/2 A or 33 43304B00/3 A for the individualtuning of the vibration amplitude.
We reserve the right to make changes to theproduct design.Please note ordering data!
Type OSR101001/20 10103A..Type OSR101002/20 10105A..(with 2 m connecting cable)
Installation examples:
Type OSR501001/20 50103A..Type OSR501002/20 50105A..(with 2 m connecting cable)
Fixing holes
SizeType
OSR101001/20 10103A1OSR101002/20 10105A1OSR501001/20 50103A1OSR501002/20 50105A1
Apparent powerPs
(VA)
36
48
36
48
Max. air gapa
(mm)
3
3
3
3
Air gap a (mm)
Magnetic force F (N)
1
10
30
10
30
2
5
17
5
17
3
3.5
13
3.5
13
Total weightm
(kg)
0.36
0.56
0.36
0.76
Technical specificationThe magnetic force values in the table are statistically determined peak values for the air gap specified in each case. These values applyto operating temperature and 95% of the rated voltage. All information valid for 50 Hz.
Type OSR101001/20 10103A..Vibrating solenoid for side mounting
Type OSR501001/20 50103A..Vibrating solenoid with magnetic fixingand 2 m connecting cable
� Dimension for:type OSR 101002type OSR 501002
Dimensions (mm)Vibrating solenoid for side mounting Vibrating solenoid with magnetic fixing
Maintain operational air gap
15 x 15 x 2 anglefixed with rivets or screws
vibrators
www.kendrionmt.com 11
Example of orderOAB513002
230 VAC, 50 Hz
with plug-in connection
Type OAB513002
Options/accessoriesplug-in connector to DIN EN 175301-803 (DIN 43650)form C, additional weight see page 15
can be used as vibrator when additional weight isfitted
Dimensions (mm)
SizeType
OAB513001/25 51307A00
OAB513002/25 51307A01
OAB513003/25 51607A00
Max. permissiblevibration amplitude
s
(mm)
4.5
4.5
4.5
Vibration amplitudewithout additionalweight 150 g
s
(approx. mm)
1.5
1.5
Apparentpower
Ps
(VA)
21
21
21
Total weightwithout additional weight
m
(kg)
0.52
0.67
0.55
Vibration amplitudewith additionalweight 150 g
s
(approx. mm)
4 - 4.5
Armatureweight
mA
(kg)
0.13
0.13
0.13
Technical specification
The values apply when the housing is fixed to a relatively large mass.Additional weights > 150 g should be avoided because otherwise themaximum permissible vibration amplitude is exceeded.
Vibratorsfor single-phase alternating current
These vibrators in flat form are AC oscilla-ting drives with permanent pre-magnetisa-tion in which the force effect of an electro-magnetic alternating field is used to gene-rate a curving oscillatory motion. Theoscillating frequency is equal to the mainsfrequency.
CEThe electromagnetic products fromKendrion Magnettechnik are componentsfor incorporation and operation in electri-cal equipment and devices. They thereforedo not fall within the remit of the LowVoltage Directive 73/23/EEC. The usermust ensure conformity with the EMCDirective 89/336/EEC by using correspon-ding switching devices or controls.When using the recommended Kendrionaccessories, conformity with the EMCDirective is stated on the respective datasheets.The products are manufactured and testedaccording to DIN VDE 0580 (July 2000).
When using these devices, please read “The TechnicalBackground" and the “General Technical Information”(see page 14) first.
Standard rated voltage: 230 V AC, 50 Hz
Class of protection: device IP 20, connection IP 00
Insulation class: E
We recommend our control type OCS 33 43303B00 or 3343304B00 for the individual tuning of the vibration amplitude.
We reserve the right to make changes to the productdesign.Please note ordering data!
Type OAB513001(25 51307A00)
Type OAB513002(25 51307A01)
Type OAB513003(25 51607A00)
Fixings
Socket
approx. 37,5
approx.
approx.
appr
ox.
appr
ox.
appr
ox.
www.kendrionmt.com
a44
60.5
64
77
90
116
116
116
224
224
b26
31
42
44
56
66
85
132
174
224
c30
45
45
54
66
86
86
86
150
150
d32
-
50
60
83
95
110
160
180
230
e2
-
3
3
4
4
5
8
6
6
f42
-
63
77
92
120
121
124
131.5
131.5
f140
60
60
74
88
116
116
116
129.5
129.5
f29.8
15
14
19
20
28
28
28
38
38
f35
7.5
7.5
10
11
15
15
15
20
20
g30
45
45
54
66
86
86
86
150
150
h12
16
20.5
21
32
35
53
100
100
150
i9.8
14.8
14.8
19.8
21.8
29.8
29.8
29.8
39.5
39.5
Ø k4.1
-
5.1
5.1
6.1
6.1
6.1
10.2
-
-
l22
-
43
45
66
69
84
134
140
190
TypeOAC003xxx/WS 3BOAC005002/WS 5B2OAC006xxx/WS 6BOAC007xxx/WS 7BOAC009xxx/WS 9BOAC010xxx/WS 10BOAC011xxx/WS 11BOAC012xxx/WS 12BOAC013xxx/WS 13BOAC014xxx/WS 14B
l120
-
35
40
50
63
63
63
110
110
m22
-
36
45
66
69
84
-
-
-
Ø n4.5
-
4.5
6.6
6.6
9.0
9.0
-
-
-
Ø o4.5
-
4.5
5.5
6.6
9.0
9.0
9.0
12
12
p11
15
15
20
44
60
60
30
110
110
Ø r3.5
5.1
5.1
5.1
6.5
6.5
6.5
13.0
17
17
s20
28
30
37
44
60
60
60
110
110
Ø t4.6
5.1
5.1
5.5
6.5
6.5
6.5
13.0
17
17
12
vibrating solenoids
Options- special cable- special coil- fixing plate
Example of orderOAC005002
230 VAC
50 Hz
100% duty cycle
Type OAC
* OAN008038 (WS08/38)
View “A” (base plate)
OAC vibrating solenoid
View “A”
Plan view on armature
OAC006 - 014
xxxVersion 001base plate fixing
xxxVersion 002side fixing with through-holes
Version 002 dim. “x” according to wireor orderside cable outlet only possible with...OAC003xxxOAC006xxxOAC007xxxOAC009xxx
* OAN
l 1 l 1
dim.
dim.
dim.
www.kendrionmt.com 13
vibrating solenoids
Solenoidweight [kg]
0.125
0.450
0.580
1.000
2.400
1.950
3.850
5.450
9.200
19.000
26.300
Armatureweight[kg]
0.025
0.085
0.110
0.150
0.550
0.330
0.680
1.000
1.800
3.100
6.200
Technical specification
Type of connectionlead wires, 200 mm long3-core oil-filled flexible cable, 200 mm long, up to OAC011...3-core oil-filled flexible cable, 500 mm long, up toOAC005002, OAC008... and from OAC012...The solenoid can be supplied in a special version with aspecial connecting cable on request.
Preferred duty cycle100% duty cycle = coil ON time (s) x 100 / total cycletime (s)
Key to type designation
OAC 006 001 / WS 6B1
Version/xxx
Size within series
Device group (AC vibrating solenoid)
Class of protection Insulation classIP 54 Y, DIN VDE 0580 (July 2000)
CE symbol solenoids/electronicsThe electromagnetic products from KendrionMagnettechnik are components for incorporation and ope-ration in electrical equipment and devices. They thereforedo not fall within the remit of the Low Voltage Directive73/23/EEC.The user must ensure conformity with the EMC Directive89/336/EEC by using corresponding switching devices orcontrols. When using the recommended Kendrion accesso-ries, conformity with the EMC Directive is stated on therespective data sheets.
The peak forces given in the table are based on opera-ting temperature and 100% rated voltage for a refe-rence coil temperature of 35°C.Peak force F = magnetic force for rated air gap andnon-vibrating state.The VA values were determined for rated air gap andnon-vibrating state. They represent maximum valuesfor the temperature rise according to the testing provi-sions of DIN VDE 0580 (July 2000), point5.5.1/5.5.2.An additional, red, blank tag is required when connec-ting via a half-wave rectifier.
Type
OAC003001/WS 3BOAC005002/WS 5B2OAC006001/WS 6BOAC007001/WS 7BOAC008001/WS 8BOAC009001/WS 9BOAC010001/WS 10BOAC011001/WS 11BOAC012001/WS 12BOAC013001/WS 13BOAC014001/WS 14B
Max. ratedair gap[mm]
2
1
2.5
3
3
3
3.5
3.5
4
5
6
Connection to 50 Hz [VA]
15
60
70
136
410
282
480
650
1000
1826
3280
Peak force, max.rated air gapF[N]
4.0
60.0
15.0
40.0
370.0
110.0
160.0
320.0
360.0
400.0
550.0
Connection viahalf-wave rectifier[VA]
14
42
68
125
410
315
525
730
1155
2200
3520
Peak force, max.rated air gapF[N]
5.0
38.0
24.0
45.0
370.0
150.0
200.0
360.0
460.0
480.0
900.0
1. Vibrating solenoids for direct connection to amains power supply are given the voltage rating,for example, 230 V,50 Hz. In the case of a directconnection to a mains power supply, the mechanicalvibration generated is twice as high as the mainsfrequency because every half-wave generates a magne-tic attraction pulse. Shortly after crossing the zero pointof the electric current, the polarity of the field of force isreversed. Here, the magnetic force is equal to zero.2. Vibrating solenoids for connecting via a half-wave rectifier are given the voltage rating, forexample, G 230 V (50 Hz). A half-wave rectifier con-nected in series cuts off either the positive or negativehalf-wave of the alternating current. The use of a half-wave rectifier results in a mechanical vibration with thesame magnitude as the mains frequency. The currentflowing through the vibrating solenoid is a pulsatingdirect current. The power drop of the smaller frequencyis compensated for by the larger amplitude. Harmonicsoccurring in the excitation frequency prevent moistloose materials from sticking to the vibrating conveyor,and clogging of the mesh in close-mesh vibrating sieves.
Example of order
1) Connection to AC supplyOAC006001, version 1230 VAC, 50 Hz, 100% duty cycle2.5 mm rated air gap, 70 VA
2) Connection via half-wave rectifierOAC006001, version 1G 230 V (50 Hz), 100% duty cycle2.5 mm rated air gap, 68 VA
Versions deviating from the product data sheetsmust be specified with the order.
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General instructions for users of KENDRIONelectromagnetic products
1. General safety adviceThe devices are designed, built and tested accordingto the acknowledged technical standards and rules, inparticular according to the provisions for electromag-netic devices (DIN VDE 0580, July 2000).The devices may only be connected to the powersupply type (AC) and voltage as specified on therating plate.Always make sure that the devices are disconnectedfrom the power supply during servicing and mainte-nance work.Current-carrying parts, e.g. plug contacts or theenergisation coil of the device, must never come intocontact with water.The lead wires or cables or the plug-in connections ofthe devices should never be subjected to mechanicalloads (pulling, squashing, etc.).The devices may not be put into operation if:- the electrical power supply cables/wires aredamaged- the solenoid housing or the casing is damaged- a fault is suspected after the device has beendropped, knocked, etc.Repairs in such cases may be carried out only byspecially trained personnel. Repairs carried outimproperly can lead to considerable dangers for theuser. If the devices are used for purposes other thanthose for which they are intended, or connectedincorrectly, KENDRION MAGNETTECHNIK cannot acceptany liability for any damages caused as a result. Theuser is responsible for the proper and safe use of thedevices. Therefore, the installation situation, ambientconditions and similar factors must be agreed withthe manufacturer of the devices in good time.The life expectancy is heavily dependent on theexternal conditions (installation position, type ofmedium, magnitude of loading), and any statementsappertaining to life expectancy shall require a specialagreement.The magnetic forces specified are average values andmay deviate from the values given in the tables as aresult of natural scatter effects.The relevant Accident Prevention Regulations are tobe observed depending on the particular application.
general technical information
14
2. General requirements for ambientconditionsIn the case of deviations from the specified operatingand ambient conditions, appropriate measures mustbe taken, e.g. higher class of protection and/orspecial surface finish, or with a higher temperature,a special coil and cable.
3. ConnectionVarious types of connection are specified on theproduct data sheets for the individual devices. Thedevices may be connected only according to thedetails given on the rating plate. In particular,voltage and frequency must be adhered to.It is often the case that several devices are operatedsimultaneously. When connecting the devices makesure that the devices all operate in phase (e.g.several inline vibrators beneath a common vibratingconveyor) or out of phase by 180° (non-vibratingoperation with low unsprung mass). All devices withplug-in connections then always operate in phasewhen in each case the left or right connection isconnected to the phase. For all other devices wireswith the same colour or terminals with the samelabel must always be connected together.During operation, the amplitude of all devices can becontrolled electrically (e.g. with a resistor in series, atransformer, or KENDRION controls OCS3343303B00and OCS3343304B00).
4. General requirements concerninginstallation of devicesUnauthorised modifications or changes of anynature, e.g. drilling into the solenoid housing, areprohibited because they can lead to operationalmalfunctions, e.g. interruption of the coil windings.Higher supply voltages, different operating modes,low frequencies, etc. contrary to the details given onthe rating plate, or the blocking of the plunger in thecase of AC solenoids, can lead to severemalfunctions, e.g. burn-out of the energisation coil.The devices must be operated with the necessaryrated voltage and frequency. The voltage drop is tobe kept within strict tolerances (normally 4%) whenlaying the lines by choosing the correct wire cross-sections.The earthing screw, if fitted, must be connected,otherwise the solenoid must be suitably earthed insome other way. Devices with class of protection I
require the user to provide a PE line connectionaccording to DIN VDE 0100.Devices with class of protection II do not require a PEline connection.The class of protection to IEC 60529 is onlyguaranteed when the devices are properly fixed tothe machine and used in conjunction with a plug-inconnection to DIN EN 175301-803 (DIN 43650).
Vibrating solenoids for direct connection to amains power supply are given the voltage rating,for example, 230 V, 50 Hz. In the case of a directconnection to a mains power supply, the mechanicalvibration generated is twice as high as the mainsfrequency because every half-wave generates amagnetic attraction pulse. Shortly after crossing thezero point of the electric current, the polarity of thefield of force is reversed. Here, the magnetic force isequal to zero.
Vibrating solenoids for connecting via a half-wave rectifier are given the voltage rating, forexample, G 230 V (50 Hz). A half-wave rectifierconnected in series cuts off either the positive ornegative half-wave of the alternating current. Theuse of a half-wave rectifier results in a mechanicalvibration with the same magnitude as the mainsfrequency. The current flowing through the vibratingsolenoid is a pulsating direct current. The power dropof the smaller frequency is compensated for by thelarger amplitude. Harmonics occurring in theexcitation frequency prevent moist loose materialsfrom sticking to the vibrating conveyor, and cloggingof the mesh in close-mesh vibrating sieves.
The static air gap may be set narrower, but therated air gap not wider because otherwise anunacceptable increase in the current consumption canlead to burn-out of the coil. An increase in the size ofthe air gap requires the windings to be adapted andleads to a loss of force. The peak force F is the forcemeasured with an equivalent direct current, which isequal to the peak value of the alternating current atthe rated air gap (DIN VDE 0580, 5.4.3.2). Theamplitude force is half the peak force.
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Types OMW 24 51604D00005OMW 24 51606D00005OMW 24 51607D00005
Type large Material No: 430006 form AType small Material No: 430007 form C
large small
2-pole plug-in connectors, large and small, withPE line connectionPlug-in connectors are detachable connections speciallydesigned for electromagnetic devices.The 2-pole versions can be used to connect singledirection linear solenoids, electromagnetic clamps andvibrators. The cable outlet can be rotated through4 x 90° by inserting the contact carrier accordingly.
After plugging the connector into the device connectorit is secured with a machine screw (supplied). Thisguarantees an effective seal between the two andprevents the plug-in connector from becomingaccidentally detached.
A screwed cable gland, thread size Pg 11 (material No.43006), serves to seal the cable entry.The contact elements are suitable for connecting wirecross-sections up to max. 1.5 mm2. Air clearance and leakage paths to VDE 0110.Insulation class C.When plugged in and secured, the connection meetsthe requirements of class of protection IP 65 toIEC 60529.
Types OCS3343303B00 / 2 AOCS3343304B00 / 3 A
Bellows for OMW vibrating solenoids Plug-in connector to DIN EN 175301 Phase-shift control for all vibrators
accessories
15
27.5
Ø22
.5
27.5
52
35
M37
OCS3343303B00
OCS3343304B00
Universal base
External control signal 24 V Mains: 110...230 V, 50/60 Hz
Adjustment potentiometerTrimmer
Housing cover
External potentiometer Load500k, 0.5 W, linear max. 2A
Fuse 2.5A/slo-blo
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This publication is for information purposes only and should not beregarded as a binding presentation ofthe products, unless we expressly confirm otherwise.We reserve the right to make changesto the specification, form, price andavailability of the products describedherein at any time without prior notice.Each product may be used only for itsintended purpose.We reserve to make changes to theproduct design.