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Technical description of the
winding calculator 1012
I
I I Brief description
The winding calculator 1012 includes a calculating and a controlling system
for determination and storage of the winding diameter and to control the torque
of the winding shaft at variable line speeds. It has been designed to operate
together with d. c. controllers and shunt-wound motors.
The winding calculator 1012 operates on the priciple of indirect tension control.
The tension of the web is determined from the torque of the winding drive and
from the winding diameter. Therefore in order to control the web tension, the
actual winding diameter must be known and the torque of the winding drive
adjustable at all times whilst winding. The actual winding diameter is deter-
mined by the winding calculator. A mechanical or opto-electronic sensing of
of the diameter is not necessary. The torque of the winding drive is determined
from this calculated diameter signal and supplied to the d.c. controller as
a current set-value.
The winding calculator enables various winding characteristics to be set.
Continual adjustment from winding with constant tension to winding with con-
stant torque can be chosen. It is also possible to wind with atensionreduction
as the diameter increases.
Output signals can be taken from the winding calculator, which reports web-
break, standstill or end-position. An additional freely switchabll motor
potentiometer, the output of which gives the actual diameter, is also
available.
Fig. 1:
Winding calculator
Winder shaft speed
Besrb. DRAWN St/St
Geprtitt: \ checkad: ,
.- terhnungs-Nr. Drawing-No.
Lenze GmbH & Co KG Aerzen, 3250 Hameln MB 33.0420/l GB d 1 I,
Contents Sheet
I Brief description 7
II Functions and technical data 3
III Description of the function blocks
1. Diameter calculator 4
2. Standstill recognition with calculator inhibit 6
3. Reset 6
4. End I i mi t posi tion control 7
5. Web-break survei I lance 9
6. Torque compensation 11
7. Tension debrmination ’ 12
IV Connection of the winding calculator with
S imp1 atron control lers 1. Winding with the controllers L71...475and
4 81.. . . 4 85 16
2. Winding with the controllers 441.. -445 17
3. Unwinding with the controller 422 18
‘V Adjusting instructions 19
VI Function of the trimmers .21
VII ‘Connection diagram 22
imensions diagram -!?A?-.
H-W J
Fmax
I @ Fuse
I J
&LNl ConnPttion terminals 31
I II
Highest point in&ding baseplate 60mm
zhecked:
3earb. FAWN
I St/St 9-6- 12 3eorSft: I I Lenze GmbH & Co KG Aerzen, 3250 Hameln
Zeielnungs-Hr. Drawing-No.
MB 33.0420/2 GB a
I
/ Mouriting Ides 06
Technical description of the winding calculator 1012
II _ Functions and technical data
- Determining the winding diameter d’
Division of the winding diameter: approx. 1000 steps
potentiometer )
Maximum winding ratio dmax/dmin = q = 18
( given by motor
- Storage of the winding.diameter for an unlimited amount of time, even with
mains failure or web-break
- Determination of the current set-value Iset for d-c. controllers IO V f Imax
- Adjustable winding characteristic from winding with constant tension through
winding with constant torque, to winding with thetensiondecreasing as the
diameter increases
- Static and dynamic friction compensation adjustment range of the trimmers
0 . --O-2 Iset max
- Standstill logic with transistoi outputs. The logic reacts, when 30 Vmax is
reached
- Web break survei Ilance and report via an LED and relays
- End limit position cut out and report via an, LED and relays
- Automatic reset to the starting state
- Calculator inhibit with display via an LED
- Suiting the tachogenerators IO V = . . .I80 V = for the web I ine tacho
q x 10 V = . -. 180 V = for the winder tacho
- External determination of the winding tube diameter when winding tubes of
various diameters are being used 10 V f dmax
- Mains supply 190.. -265 V 50/60 Hz
Fusing single fuse,semi-time lag M 0.2 A, 5 x 20
Temperature range 0. . .450 C
Bearb. Zeichungs-Nr. Drawing-No. DRAWN st/st 79-6-12
I
Lenze GmbH & Co KG Aerzen, 3250 Hamein‘ MB 33.0420/3 GB J GapriJrr: C~dWd:
Fig. 2: Block circuit diagram of the winding calculator 1012
Winder. tacho -
Web - tach0
Stand:till report RSP Reset Start I I 7
Standstill
I
+ *
Calculaf0r
. I I
I 1 i,
Web-be0 k surveillcxxe Reset
III. Description of the function blocks
1. Diameter calculator
Fig. 3: Simplified functional scheme
1 Selectibn wind and unwind
Selection _ windiq tub
diameter
- End- limit position report
- Current set -value
Kl7 Winder tacho
Web tacho
1 Difference amplifier
Pulse width 4m&
Motorized regulator potentiometer
.
The tachogenerator ml ( fig. 1 ) produces a voltage u,,b which is pro-
portional to the web speed
1. V = kj X Uweb
At the same ti me, the speed n of the winding reel is measured by the tacho-
generator m2 ( fig. 1 ), this speed is constantly reduced as the reel dia-
meter gets larger. if the gear ratio and the circle constant rare combined to
give the constant k2, the web speed is then
2. v = k2 x d x Uwind
d= actual reel diameter
Zeichnungs-Nr. Drawing-No.
Lenze GnbH & Co KG Aerzen, 3250 HameIn MB 33.0420/4 GE3 a
. .
Technical description of the
winding calculator 1012
The two VOt tages U,,b and UWind are compared with each other in the diameter calculator ( diagram 3 ). Controller and motorized potentio- meter give the relationship. .
3. U,,b = a x Uwind
a ’ I
= Adjustment distance of themotorizedpotentiometer. 0
4. afd .
is derived from the equations 1, 2 and 3.
Therefore the adjustment distance of the motorized potentiometer is a de-
riving value for the diameter.
The tachogenerators must produce d.c. voltage. Tine maximum tacho volt-
age must not exceed 180 V=.
The maximum windlng tacho voltage should be al least q x 10 v=.
It is supplied to the CakUtator vla the terminals 7 (+) and 8 (-).
The maximum web tacho voltage must be more than IO V. It is supplied to the calculator via the terminals 9 ( + > and 8 ( - > and adapted with the
Vmw trimmer .
The adjustment of the qmax trimmer is made according to the largest winding ratio ( for a description of the adjustment sequence see “Adjusting
instructions” 1.
Fig. 4 : Connection of the tacho generators
= 10v....1a0v
Zaichnungs-Nr. Drewmg-No.
Lenze GmbH & Co KG Aerzen, 3250 Hame’n MB 33.0420/5 GB
A freely usable potential free potentiometer, whose adjustment distance ( a > corresponds to the diameter, is available at the terminals 29, 30 and 31. It can, for instance, be used for the display of the winding diameter . The potentiometer can be loaded with a maximum of 3 watts.
Fig. 5: Freely usable potentiometer
R=5K \in/3W
Additionally, a voltage 0.. . + 10 V, which is proportional to the winding diameter, is available at terminal 36, d,,, “= + 10 V=. kis voltage can be
loaded with 5 mA.
2. Standstill sensing with calculator inhibit
When the winding machine is at a standstill, the reel diameter can no longer
be sensed by the calculator; because the tacho voltages of the web and of
the winder are needed for this. The standstill logic switches the calculator,
inhibit, when Vmax is reached. The momentary diameter remains stored , 30
which insures, that the controller output does n.ot drift. *.. . .- .- The web is kept taut even at stands ti I I. WhenThe standstill logic is
activated, terminal 37 registers approx. + 12 V =. This transistor output can
be loaded with 20 mA. It can, for instance, be used for eventual standstill
tension reduction.
.I The calculator inhibit can also be switched externally. By bridging the termina
18 with terminal 13 ( GND > , the momentary diameter remains stored. ‘If the
calculator is inhibited, the LED “RSP” V 803 lights up.
6: Fig.
External control inhibit switching .__. _. . ___ 3. Reset
. Standstill report
When the winding process has finished, and before starting the next winding
process, the motorized potentiometer of the diameter calculator must be
brought into its starting position.
When winding, this is done by bridging terminal. 12 with terminal 13 ( GND > .
When unwinding, reset is made by bridging terminal 14 with terminal 73 ( GND ). 3earb. 3!X4Wl4 St/St 79-6- 12 Zoidmungs-Nr. Drawing-No.
Grpfir!l: I I
Lenze GmbH & Co KG Aerzen, 3250 Hameln MB 33.0420/6 GB 37rdted:
Technical description of the
winding calculator 1012
Either maintained or fleeting Signals Can be used to initiate the reset to starting position,
lf a maintained reset signal is used, it must be inhibited before the start of the winding
process.
The reset tlme depends on the wlndin’g ratlo, but is however a maximum of 15 secDnds.
Fig. 7: Resetting
12 13 IL
Reset when
,.w
Reset when winding unwinding
When the starting posi!lon has been reached, the motorlzed potentiometer remalns in
this positlon. Before the start of the nextwinding process, a starting slgnal must be made
after the web has been attached to the winding tube in order to release the calculator
inhibit, which was automatically switched by reset. If the start signal is given before
the web has been layed-onto the winding tube, it can lead to a web-break report. When
winding with a winding turnover turret, the return slgnal for the cutting knife can be
used as the starting signal.
The starting signal Is made by bridging terminal 19 with terminal 13 (GND). Either maintained
or fleeting signals can be used.
Fig. 8: Start button
4. End limit position control
If the motorized potentiometer reaches a start’or end limit position dmin
( empty tube > or dma, ( full reel ) , then the end I imit position control
reacts.
It switches calculator inhibit and in so doing, prevents motorized potentio-
meter from running against its mechanical stops. A preset .
reset process is ended when the end I imi t position is reached.
The end fimit position dmi,+, ( empty tube > is displayed by the LED “dmin”
V 801, A relay contact is available at terminals 1 and 2, which, when in
an open pasi tion, also signals d min.
The end I imi t position dmax ( full reel. ) is displayed by the LED “dmaX”
V 802. .4n open relay contact between terminals 3 and 4 al so signals d,,,,.
IXU’W IS t,st
Barb. h-6- 12 r,,
Zeibnungs-Nr. Drawing-No.
Gepriiir: 1 Lenze GmbH & Co KG Aerzen, 3250 Hameln MB 33.0420/7 GE u ctretied: ! I 1 1
- -
The maximum switching voltage of the relays is 220 V. The continuous
current iimit must not exceed 0.1 A. The switching power for 24 V d.c.
is 0.1 A. The relay contacts can switch inductive loads of approx. IO VA
ho1 ding power, if the power coi Is are bypassed with RC-absorber components ( e.g. Kfockner-Moeller-auxiliary contactor DIL 00 with absorber component
RC 00 ) . With d. c. loads the coi I must be b$passed wi th a free-running
diode ( e.g. diode 1 N 4004 >.
Fig. 9: End position report
In order to adjust the end position, the largest reel diameter to be wound dmax must be known. This largest reel1 diameter is then equivalent to + 10 V= on
the winding calculator. ke diameter of the empty winding tube must also be
known.
The dmin trimmer is adjusted, so that the voltage + IO v.
is registered at terminai 36. ( for an exact description of the adjust$ent procedure see adjust-
ing instructions >.
If empty tubes with different diameters are used, the dmin trimmer must be turned fully anticlockwise. The vat-i ous diameters ,r,t~nofn’4e~mt~~a;~;ding
calculator external I y , by means of a d.c. voltage . The input resistance of terminal 20 Is 75 kChms. III% diameter signal for
d min must be on terminal 20 for the whole winding process and before ope-
rating reset. It must be noted when requesting end position dmin, that the mototized potentiometer can only be adjusted to smaller diameters.
Example: The maximum reel diameter is IOOOmm. Three different
winding tube diameters are being used, 80, 100 and 125 mm.
1000 ’ mm 1000 mm 1000 mm
91 = 80 mm q2 = = 100 mm ‘3 125 mm
91 = 12.50 92 10 93 =8
10 v dmin 1 fu, =-
q1
“1 = 0.8 V “2 =1v “3 = 1.25 v
Terminal 16 ( +Vcc = 15 V ) is available in order to achieve
this vol tage .
I t can be I oaded with 20 mA .
Bearb. -
St/St 79-6-12 Zeictlnungs-Nr. Drawing-No. DPAWN
Lenze GmbH & Co KG Aerzen, 3250 Hameln MB 33.0420/8 GB
C;Cp&ft: ae&ed:
r Technical description of the
winding calculator 1012
Fig. 10: Choice of various winding tube diameters
I
----I drnml drnin2 dmin3
me terminal 21 is available, if different maximum reel diameters are to be wound. The resistance R 111 (on soldering supporting points) has to be removed on this occasion. The largest reel diameter is equivalent to 1-10 V. For smaller reels, the voltage at termina- 1 21 must be reduced proportionally to the smaller diametey. It must be noted when requesting end position dmax, that the motorized potentiometer can only be adjusted to larger diameters.
Example : Two different reel diameters are to be wound dmaxl = 1000 mm,
d max2 = 800 mm
1000 mm is the largest reel diameter, therefore + 10 V at terminal 21 is equivalent to 1000 mm
For a reel diameter of 800 mm, + 8 V must be available
at terminal ‘21.
Fig. 11: Choice of various reel diameters
I I 1 I. 1 12’1 I The resistance Ii 111 has to be removed.
5. Web-break survei 11 ante
For the web-break surveillance function, It is necessary for the wlnding calculator to
be informed whether the process is wlnding or unwinding.
When winding, terminal 15 must be linked with termlna! 17 (-Vcc),
when unwinding terminal 15 must be iinked with terT.inal 16 (+Vcc).
Drawing-No.
42O/9 GE a
Fig. 12: Choice of wind or unwind
Unwind
The response time of the web-break survei I lance depends on the web speed
and on the momentary reel, diameter, and is a maxi mum of several mi I I i -
seconds. Web-break is reported by the LED “BR” V 804 and a relay contact at terminals 5 and 6. When the web-break survei I lance is activated, the re-
1 ay contact opens. This can be used to switch off the winding machine.
Fig. 13: Web-break report
The maximum switching voltage of the relays is 220 V. The continuous current
limit must not exceed 0.1 A. The switching power for 24 V d.c. is 0.1 A. The relay contacts can switch inductive loads of approx. 10 VA holding power,
if the power coils are bypassedwith R-C. absorber components ( e.g. Kloeckner-Moe!ler-auxiliary contactot DIL 00 with absorber component RC 00 ).
With d.c. loads the coil must bebypassed.with a free-running diode ( e.g.
diode 1 N ‘4004 > -
When activated, the web-break survei I lance prevents the motorized potentio-
meter from adjusting. Thedi‘ameterat the time of web-break remains stored .._ in the winding calculator. When the web is attached to the winding reel
again, the web-break surveillance must be released. For this a normally closed
contact must be connected between terminals IO ( +ub > and Il.
Fig. 14: Web-break release +Ub
If the web tacho is mechanically coupled with the speed determining drive
when winding ( fig. 15 ) , a fast response of the web-break survei I lance is
not guaranteed. Here the response time depends on the acceleration rate
(because of the reducing web tension ) of the winding drive. When the web
tacho is placed according to fig. 1 a fast surveillance function is given.
-- .--- He-lb. 3RAWN St/St 79-6- 12 Zeldmunpa-Nr. Drawing-No.
Ge!Jrull: Lenze GmbH & Co KG Aerzen, 3250 Hameln MB 33.0420/10 GB mec*ed: f t
Technical description of the
winding calculator 1012
Fig. 15: This system does
survei I lance
guarantee fast response of the web-break
d. c . controller Winder drive
Web speed _ Winder shaft speed _.
Jhen changir,g the resistors H 337 and R 338 (on soldering supporting points) ;he sensitiveness of the web-break surveillance can be adapted tc the correspondent 4inter. \ccording to standard , resistors of 15kOhm are here soldered in. The diminution of thoae’resistora results in an increase of the response sensitiveness of the web-break surveillance. A faster web-break indication 3r -disconnection is attained, too;
When using tensile winding material or winding reels with a high unbalanced mass it might ‘. be necessary to diminish the sensitiveness of the web-break surveillance in order to avoidan error inindicationIn this case, the values of resistance for H 337 and R 336 will have to, be increased.
Bearb.
ob+wN STU
Gaprirtt: metied:
14.4.R2 i 4 Lenze GmbH & Co KG Aerzen, 3250 Hameln
Zaichnunga-Nr. DLSWWQ.NO.
I MB 33.0420/11 GE o
6. Torque compensation
The torque compensation adds or subtracts the torque influences which could cause a falsification of the tension. (le. losses)
The static and the dynamic friction are compensated. The preceding signs of these torques are switched according to whether winding or unwinding..
When the winding drive is starting from standstiii, a break-away torque must
be overcome. The compensation of this friction c,qnstituent is adjusted with the
‘l”Rbg I1 trimmer. from 0 g*oo’2 Mnomlnal.
The influence of the dynamic friction is compensated for with the “M(n)Rbg
trimmer. The adjustment range of this trimmer is also from 0.. .0.2
M nominal. This dynamic friction constituent depends on the winding shaft
speed.
Fig. 16 : Dependance of the dynamic friction torque to the winding shaft
speed. .
I
100 nmax [%I
j %$I STU. !82-L-14/
I
zeichnunQ%-Nr.\ DfW,ng-No.
Lenze GmbH & Co KG Aerzen. 3250 Hameln MB 33.0420/12 GB a
7. Tension determination
The tension determination forms the current set-value for the d-c. controller
of the shunt-wound motor, from the diameter signal of the diameter calculator.
The optimal winding characteristic depends primarily on the material to
be wound and can therefore vary considerably. The winding characteristic
can be adjusted on the H-W trimmer.
If several different materials are to be wound, an external adjustment of the
winding characteristic is possible. To achieve this, the resistor R 214
( on soldering points > must be removed, and an external adjusting potentio-
meter must be connected to terminals 23 ( hard ) , 24 ( soft > and 22
( slider 1.
Fig. 17 : External H-W adjustment ( hard-soft ) -
- The resistor R214 Potentiometer 10 Kn\in /lW
must be removed
W
The adjustment range of the “H-W” trimmer or potentiometer extends from
the setting of constant tension ( position “ii” ) through the complete dia-
meter range to the setting of constant winding torque ( position “W” ).
Fig. 18 : Adjustment range of the H-W trimmer
M H H nom
MO
I
w W
dmin d mox dmin d m JX ._
Gs,vblt: Chb&bd: I
82-b-11 ’ Lenze GmbH & Co KG Aerzen, 3250 Hameln
tsichnungr-Nr. DWWI~Q-NO.
MB 33.0420/13 GE3 o
1 For materials which need a redticing torque as the diameter increases, ter-
minal 38 must be bridged with terminal 39 ( GND > . The reducing torque
can now be set with the “H-W” trimmer or potentiometer. The torque of
the empty tube MC must however be readjusted either with the tension
set-value potentiometer or with the Fmax trimmer.
Fig. 19 : Reducing torque as diameter increases
Trimmer H-W in position w
- cl min d
The “F max” trimmer is for the adjustment of the maximum current set-
value for the d.c. controller. *. ’ I
1 10. I = set max 9 10 V>md max + ( + mbmax + mRbg - - + m(n)Rbg
The preceding sign in front of .the brackets is positive when winding and
negative when unwinding. _
mdmax : ::
Part of the current set-value for maximum tension with
“’ a ‘ful I ‘&&?.~lhi&’ part’& be measured’as a negative
: toI t~~~-~‘~~m ,~,i 6 ‘36” ( -. ) and 27 ( GND ) when the
motorized.potentiometer is in the dmax position.
mbmax : Part of the current set-value at maximurn acceleration .
Can be measured on terminals 34 and 39 ( GND > .
mRbg: Part of the current set-value for cancel I ing out the
static friction ( max. 2 V >.
m (n)Rbg ’ Part of the current set-value for cancel I ing out the
dynamic friction, with maximum wind shaft speed
(max. 2V 1.
The “FSetl’ potentiometer is connected to terminals 25, 26 and 27 ( GND >
for external tension adjustment. The range is from 0.. .Fmax.
i%~& St/St 79-6-12 ZeiUlnungs-Nr.
Lenze,GmbH & Co KG Aerzen, 3250 Hameln MB 33.0420/11 GB Gepd1: I
- :?e*ed. ..-. ._
Technical description of the
winding calculator 1012
Fig. 20 : Connection of the F,,t potentiometer
If an “Fset(l potentiometer is not used
then terminal 25 and 26 must be
bridged Poti 10K lin/lW
T
Fig. 21 : Winding characteristics when “Fset” potentiometer is adjusted --
Trimmer H-W on H
M
---
dmin d max d min d max
Trimmer H-W on W
I I I t
M I
------I Ft
1
t I
I i pi\
I
1 1 \
I 1
k ‘y--y= ‘,-A’
k k ]
--T-+-* i -t--T--
i 7 I L-;-‘--i L
--‘--;-- i I---j!
dmin c! mar c! min d ma* ___- ._.-
The current set-value for tha d-c. controller is available at terminals 28 ( + )
and 27 ( GND ) .
There is a negative current set-vallle at terminals 4C (-1 and 39 (CNE) (fcr cnits 4’70 and 480).
k%;, 1 St/st 179-6-12
1 * 1 Led’nungs-Nr. Droning No
! I
- Lenze GmbH & Co KG Aerzen, 3250 Hameln 1 Gawbn: ; ME3 33.0420/15 GB b rhMi<d: I -
IV. Winaing calculator 10?2 co:nbined with Sia?latron-contrclle~~
1. Wir,ding with the controllers 47 1 + 475 and 481 + 485
The kgativt: cur[*ant set-villue output terminal 40 of’ the winding calculator :.Y ccr!r?ecr;~d with the current Yet-value input termirlal 12 of the d. c. contr~oll~::~. l’kc rlegative true speed value termirial 41 is connected with ternllnal 4 of t:lr, corlrl~oli~r. A resistor cf 2, 2 k~irlnl (un solPtiri.r~g suppor’til;g poillts) has to be removed f’roril r;he board oP cht: cotltrol!.er.
!ksi~-rlatlcri of 2.2 kOhin rme*i$rrr*s ( H 815 1 H 2.07 H 406 R 612 .-- C;l;tz.uller* typa Gil-75 473w.475 481..485
The cir.cwZt!r*rnTial speed VT’ the wpty ‘core is synchronized with the web sped ,by r;ht- speed aer;-value poCanElometer (syi:cilr.onizaticn prccrss vide
balsncir;g instruciriorls) .
+ G - - Tach o
ri web
. Soerd synchruization oi empt; windky hrbe
A 5 E
cdntroilers k71‘+475,481 +L85 ’ remove resistor’ of 2.2 k Ohm on soldering supporting points c :
“lj 4 ,3
\ n
Tocho tiinding reel
i L 1 WindIT cakxlatw 1012
‘?-I
-----P 17 $---J
I
C:oantroI catilss must be screwled and the screen connected to the PE
of one of tile usii ts .__-_. -- -. -. .-_.- I
3F%r, St/s1 p+a- 1’2
:.‘->;-I!: - Lenze GmbH & Co KG Aerzen, 3250 Hameln Tl.daL'o.
Zekhnuogs-Nr. Draking-No.
Mi3 33.0420/16 GB b
Technical description of the winding calculator 1012
2. Unwinding with the controllers 461 t 467
For the unwindings the winding calculator 1012 in connection with the 4-quadrant controllers of the serie 460 is suitable to brake the winding reel.
The following resistance has to be removed on the board of the controller:
Designation of the resistance R 215 R 117 R 602
Controller type 461 463 .-. 466 462 465 467
Fig. 23: . -v
Tacho web
Gearbox
1 I Web-break surveillance -L 1s
9 Winding calculator 1012 16
Tension set-value Start Reset ~$~~~‘a~ease
winding reel
Control cables must be screened and the screen connected to the PE of one of the units
.- -_ .-- Bsarb. Drawing.No. DRAWN jq.QT,R .-J
Ge~rirft: Leme GmbH & Co KG Aerzen, 3250 Hameln 3 MB 33.0420/17 a GB
oceded: t
3. Unwind with the controller type 422
If the requirements of tension accuracy while unwinding are not very high,
the winding calculator 1012 can be used together with a controller 422 and a magnetic particle brake.
Programme switch positions on the 422 control ler :
St in the on ( 1 > position S2 in the off ( 0 ) position
fig. 24:
Controller 422
I ‘Magnetic particle brake
--t 7 Winding calculator 1012
1 16
Start Reset Start
Control cables must be screened and the screen connected to the PE of
one of the units _-_ .- --
p9-6-12 5;;; / St/St I LenZe GmbH & Co KG Aerzen, 3250 Hameln
I I I --I..- - .,1.--1
Technical description of the
winding calculator 10 12
V. Adiustinq instructions
1.
2.
3.
.4*
4.1
4.2
5.
6.
7.
8.
9.
9.1
9.2
10.
All trimmers fully antt-clockwise
Disconnect the cables to terminals 11, 19, 28 or 40.
a) When winding: Addittonally disconnect terminal 12 and bridge terminals 15 and 17.
b) When unwlnding: Additlonally disconnect terminal 14 and bridge terminals 15 and 16.
Switch on the mains
Set the drives to maximum speed. The drives must rotate in the wlnding direction,
The circumference speed of the empty winding reels must be the same as the
maxlmum web speed.
Web tachogenerator termina1 9 (+I and terminal 8 (GND)
U max= 10 V... 180 V=
WindIng reel tachogenerator terminal 7 (+I and terminal 8 (GND)
U max = q x (*lo VI...180 V q = dmax
( ) d
min
If a preceding speed controller is not available, a voltage, equivalent to the
maximum winding shaft speed, must be connected to terminals 7 (+I and 8 (GND).
If the web tachogenerator is not being driven, a voltage, equivalent to the maximum
web speed must be connected to terminals 9 (+) Fnd 8 (GND).
Turn the “V ,max
” trimmer clockwise, until 10 V= are registered at measuring pcsition
terminals 32 (-1 and 39 (GND).
Turn the ‘Inmax ” trimmer ciockwise, until 10 V= are registered on terminals 33 (+I
and 39 (GND).
Set the drives to zero speed, or disconnect the voltage to terminals 7 and 9 and
reconnect the tachogenerators.
Close the reset contact for unwIndins S3, or alternatlvely bridge terminals 13 and 14.
Wait until the ‘Idmax I1 LED (V802) lights up. Open the reset contact or remove
the bridge.
With internal reel diameter choice turn “dmjn” trimmer fully clockwise.
Close the reset contact for windlng,S2, or alternatively bridge terminals 12 and
13. The “dmln ‘I LED MO 1) wlil light up.
Turn the “dmin ‘I trimmer slowly anti-clockwise, so that the motorized potentiometer
can follow the turning motion of the trimmer, until the voltage + 10 v - is registered
9 on terminal 36. If the “dmin ” trimmer has been turned too far by mistake, then
the adjustment procedure must be repeated from point 8.
With external reel diameter choice turn “drnjn ” trimmer fully anti-clockwise.
Gaprtfl: ! Lenze GmbH & Co KG Aerzen, 3250 Hameln
!U.l
10.2
lU.3
1 ‘1 .
‘12.
12.1
12.2
13.
13.1
14.
15.1
15.2
Ii;.
1-2.1
16.2
lb.3
17.
17.1
17.2
Connect tne aiatneter proportlonal voltage U For dmln to terminals 20 (+I and
‘;7 (GW) U = - (
+ IO v \
q / C!cse thr tese! contact for winaing,S2, or alternatively bridge terminals 12 and
13. ?ne “d mfn
” ‘LED (V80 1) wi!! Ilcpt up.
* 10 v Thr voltage --
(-7 must also be registered at terminal 36. If not, the external
voliage supply for the “d min” selectlon must be corrected accordingly and the
ad]u;tment procedure repeated from point 8.
Remuvc! the bri@ge bet\veen tcrmlnals 12 and 13, or respectively open the reset contact
frir wincling 52.
Set Ine drives to maximum speed. Potnts 4.1 and 4.2 must be considered.
Yrldqe terminals 19 and 13. -
Turn the “q,,x I’ trimmer slowly clockwtse, until the “dmin” LED (V801) just about
extinguishes.
Disconnect the drivt! and Ihe winding calculator From the mains.
Remove the bridge between terminals 19 and 13, connect the appropriate wires
to terminals 14 and IY, to aetermine wind/unwind and start.
Connect a measuring instrument with a +lO V measuring range ta terminals 28 (+I
and 27 (GN’DL
Connect terminal 28 or 40 uith r;he correspondent line. .-
Switch on the mains
Caution: With this adjustment the drive runs at max. speed. Turn the “M (n)Rbg
” trimmer
fully clockwise.
Turn thti ‘%I Rbg
” trimmer slowly cfockAse, until the drive starts running, then
turn back approx. 10 %.
Turn the “M IrMbg
II trimmer slowly anti-clock&e, until the drive starts to turn
more slowly.
Measure the voltage at terminals 28 (+I and 27 (GND) and note the value.
!&Itch off the drive. Leave the winding calculator connec?ed to mains. The “RSP”
LED (‘4803) lights cp.
CIose inr: reset contact for unwinding 53 or alternatively bridge terminals 13 and 14.
WEiii uniil !he “d W’iix” LED (YEW) liyhis up.
Reccnr:?ct t!x measuring irxtrumer.. t from terminal 2a to terminal 26 (measuring
rar:se -10 ?i=).
:ca IJ ..xA:,.” St/El 20.2.80
ZeiiXnunQS-Nr. Drati~na~.?lo.
“Lenze GmbH & CO KG Aerzen, 3250 Hameln t MB 33.0420 /20 GB c I :
Technical description OF the
winding calculator 10 12 I.
17.3
17.4
18.
18.1
19.
20.
20.1
21.
Turn the ‘IFmax ” trimmer clockwise, until the voltage
(- 10 VI + (Voltage measured at paragraph 16.3)
is set on terminal 26. The voltage must be more positive than -10 V=
Switch off the mains
Reconnect terminal 11. *
Remove the bridge between terminals. 13 and 14 or respectively open the contact
for unwinding S3.
Set the desired winding characteristic with the “H-W” trimmer.
H = fully anti-clockwise, W = fully clockwise.
An exact adjustment of the “H-W” trimmer to the desired winding characteristic
is possible while winding with material.
Switch on the mains.
a) When winding: Close the reset contact S2 for a short time, wait until the “dmin”
LED lights up. b) When unwinding: Close the reset contact S3 for a short time, wait until the “dmax” LED lights up.
Switch on the drive, the plant Is now ready for operation. VI Function of the trimmers
lrn ‘max - Adaption of the web tachogeneralor or the master voltage (70 V...180 V)
to the wtnding calculator.
2. n max - Adaption of the winding reel tachogenerator voltage (q x 10 V...180 V=)
to the winding calculator. ,
3. 9 max- Adjustment of the adjustment range of the diameter calculator to the winding
ratio. Setting’range up to q = 18.
4* dmln - Adjustment of the smallest reel diameter for the end position control and
the tension selection.
5. M R”g
- Compensation of the static friction. Adjustment range 0...0.2 Mnomina,.
6. M (n)Rbg-C.ompensation of the running friction. Adjustment range 0...0.2 Mnominal.
7. H-W - Adjustment of the winding characteristic. Trimmer at H gives constant web
tension. Trimmer al W gives constant winding reel torque.
0. F max - Adjustment of the adjustment range for the “Fsel” potentiometer.
E% St/S 120.2.80
I
Znibnungs-Hr. Drhdng-NO
i
1 Lenze GmbH & Co KG Aerzen, 3250 Hameln MB 33.0420 /21 GB b
negaclve current; ser;-value ~ Winding characteristicWhen contact closed torque’reduces as the diameter increase&
Measuring position Measuring pasition ,
Adjws t ment distance
.( Freely useable motorized potentiometer)
positive current set-value
_ .
56
Set-value tension selectian
E%ternal selection of the winding chacteristic remove Remove R2lG External selection of the diameter
b ++jOV= +lOV= Gdmax
Start Calculator input
Wind “. selection
. Unwind .
‘Unwind selection
Wind
Web-break release
VII. Connection diagram
Limit position dmin Control cables must be
screened and the screen z -
4 1 connected to the PE of 2 r
p
? N . . z-31 I one of the uni ts am N +I -- -.
7 05: Connect mrchnnical screw Iixn t ion
I
z- i&s I
6 ON A
of potcntiomctcr wi.tli FE. N .-
L : -J z