Ports: A - DIN : DN65 - DN100 MR - DIN : DN25 - DN50 MR - ANSI : 1" - 2" AR - DIN : DN65 - DN150 AR - ANSI : 2 1 / 2"- 6" Flanges: DIN : PN16 - PN40 ANSI : 150 - 300 Lbs • Floating ball. • Trans flow "design". • Leak-free operation. • Low torque for easy operation. 3-Way flanged ball valves Models A, MR and AR Model MR Models A and AR Global Filtration Technology MBC 021 rev 13-03-04
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3-Way flanged ball valves Models A,MR and AR - filter selectorfilterselector.com/FilterPDF/Ball Valves BrochMBC021.pdf · ports: a - din : dn65 - dn100 mr - din : dn25 - dn50 mr -
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Parker Arlon Ball Valves are designed totransfer flow, without interruption orshutdown. Typical applications are:Lubrication Systems, Shaft-Sealing OilSystems, Fluid Power Filtration Systems -Fluid Power Heat Exchange Systems.
Parker Arlon’s continuous - flow transfervalve design guarantees shock-freeuninterrupted flow while simultaneouslydivertering both inlet and outlet flowsfrom one component to its twin, withoutaltering the continuity of full flowthrough the valve. A tight shut-off of theidle component is provided to allow foreasy maintenance. Parker Arlon ballvalves do a leak-free, efficient job in awide variety of applications for fluids, andprocess media. (fig. 1)
Mounting
Ensure the balls are aligned in parallelwith the couplingshaft when the change-over lever is against the stop on thedetention plate. When fitting valves, careshould be taken to ensure they are notsubjected to any extreme loads appliedvia heat exchangers or associated vessels.The valve connections should never beexposed to torsional stresses of any kind.
Springloaded Ball-Seat Design
The absolute tightness of the Parker Arlon3-way 2-seat flanged ball valves isobtained by the floating ball designwhich gives an automatic, positive seal.Lifting jacks or locking flanges are notnecessary.
To guarantee leakfree functioning underthe most severe system-circumstances,the valves are provided with twospringloaded glass fibre reinforced PTFEball seats i.e. one in port 'A' and one inport 'B', resulting in an extremely lowchange-over torque at equalizedpressure. As there is no ball seat mounted on port'C' it is avoided that this port will be shutoff (see valve torque data). (fig. 2)
Stem Seal Design
The stem seal design consists of a radialand axial glass fibre reinforced PTFEbushing with a PTFE back-up ringprotected double "O"- ring sealingconstruction. (fig. 3)
Equalizing Line
Before changing over, the pressure in thesystem has to be equalized to avoidpressure shocks and air locks. Ourthreeway ball valves offer the possibillityto mount an integrated pressureequalizing ball valve.
Design Standards
Max. working pressure A:- PN 16 16 bar DIN 2633
Max. working pressure MR/AR:- PN 16 16 bar DIN 2633- PN 40 40 bar DIN 2635- 150 lbs ANSI B16.5- 300 lbs ANSI B16.5
Maximum operating pressure accordingto the relevant "flange rating". Themaximum seal operating temperature isfor NBR : -40˚ C / +100˚ Cfor FPM : -20˚ C / +200˚ Cfor CR : -45˚ C / +100˚ CWhen operating temperatures below -10˚ C: Utilize stainless steel housings only.
Hydrotesting and leaktest according toAPI-598 or DIN 3230. The transflowdesign and available materials complywith API-614.
Materials of Construction
The A model is available with:- Casted body and flanges - GGG50
MR American standard:- Body: Moulded steel- Flanges: Moulded steel
ASTM-A 105 grade B
MR European standard:- Body: Moulded steel S355J2G3- Flanges: Specified in DIN norm
AR American standard:- Body: Cast steel ASTM-A 216 WCB- Flanges: Moulded steel
ASTM-A 105 grade B
AR European standard:- Body: Cast steel GS 45- Flanges: Specified in DIN norm
The floatingball and stem are made ofStainless steel AISI-316 as a standard forall ball valve types.
All pressure containing parts are coveredby certificates in accordance with:EN 10204 /2.2 for valves type "A", EN 10204 /3.1.B for valves type "AR", EN 10204 /3.1.B for valves type "MR".
Surface protectionAll ball valves are delivered from factoryprovided with a primer suitable for allgeneral paint systems.
(fig. 1)
(fig. 2)
(fig. 3)
2G l o b a l F i l t r a t i o n T e c h n o l o g y
1. During storage the ball valve should besealed against the entry of contaminant,which may cause damage to the balland seals.
2. Ensure that the change-over lever isplaced against its stop on the detentionplate to protect the seals fromdeformation.
Mounting of Transfer Ball Valveswith Flexible Coupling shaft
Ensure the balls are aligned in parallel withthe couplingshaft when the change-overlever is against the stop on the detentionplate. When fitting valves, care should betaken to ensure they are not subjected toany extreme loads applied via heatexchangers or associated vessels. The valveconnections should never be exposed totorsional stresses of any kind. If operational pressures exceed 5 bar thevalves should be pressure equalized priorto change-over (valves with integratedequalizing lines or separated equalizinglines between vessels should be used).Ensure flanges are square when mounted.
Mounting of Transfer Ball Valves,Single or Rigidly Coupled
Ensure the balls are aligned in parallelwhen the change-over lever is against thestop on the detention plate. When fittingvalves, care should be taken to ensure theyare not subjected to any extreme loadsapplied via heat exchangers or associatedvessels. The valve connections shouldnever be exposed to torsional stresses ofany kind. If operational pressures exceed 5bar the valves should be pressureequalized prior to change-over (valveswith integrated equalizing lines orseparated equalizing lines between vesselsshould be used). Ensure flanges are squarewhen mounted.
Operation
To operate change-over ball valves,pressure must be equalized on both sidesof installation and all free air expelled fromsystems. This prevents excessive loadsbeing applied to change-over levers andairation of system fluid. Change-over iscarried out as follows:
1. Open vent valve unit not in service;2. Open equalizing line;3. Close vent valve when all free air has
been expelled from system;4. When pressure has equalized, valve can
be changed over in one singlemovement of change-over lever (90˚ turn L-bore and 180˚ turn T-bore).Extreme force should not be used;
5. On completion of change-overequalizing line must be closed.
Lagerung
Während der Lagerung und desTransports sollen die Anschlüße derArmatur abgedichtet dein, damit keineunerwünschten Fremdkörper in dieAnschlüße eindringen können. Gleichzeitigmuss darauf geachtet werden, dass derSchathebel gegen Anschlag gesetzt ist.
Montage der Doppeldreiwege-Wechselkugelhähne mit Kupplungs-gestänge und Wellengelenken
Die Parker Arlon Wechselkugelhähnemüssen so montiert werden, dass dieAnschlagscheiben gegenübergestellt sindund mittels der Kupplungsgestängesgesichert werden. Bei der Montage derWechselkugelhähne müssenaussergewöhnliche Spannungen auf dieArmatur vermieden werden. Die Anschlüße dürfen auf keinen Fall aufTorsion belastet werden und die Flanschemüssen in gerader Linie stehen. DerSchalthebel soll immer gegen denAnschleg gestellt werden. Ist derArbeitsdruck höher als 5 bar, so muss - bevor eine Umschaltung erfolgen kann -ein Druckausgleich vorgenommenwerden.
Montage der Doppeldreiwege-(starrgekuppelt) und Einfachdreiwege-Wechselkugelhähne
Diese müssen so montiert werden, dassder Schalthebel die Anschlagscheibesichert. Sonst wie oben ernante Weise.
Umschaltung
Bevor der Einfach- oder Doppeldreiwege-Wechselkugelhähn umgeschaltet werdenkann, muss die in Betrieb zu setzendeSystem-hälfte entlüftet uns ausgeglichenwerden, damit keine Luft in das Systemdringen kann. Der Umschaltvorgang sollwie folgt ausgeführt werden:
1. Die in Betrieb zu setzende System-Hälfteentlüften;
2. Die Ausgleichsleitung öffnen;3. Entlüftungshahn schliessen, nachdem
das System entlüftet ist;4. Den Wechselkugelhahn mit einer
Bewegung umschalten bis zumAnschlag (leichter Schlag 90 GradDrehung für T-bore und 180 GradDrehung für L-bore);
5. Ausgleichsleitung nach Umschaltenschliessen.
Précautions durant le stockage
Les orifices entrée et sortie des vannesdoivent être protégés afin d’éviter que desimpuretés penetrent a l’intérieur etendommagement la sphère et les joints.Il faut veiller à ce que le levier soitmaintenu en position butée contre l’ergotd’indexation afin de prévenir toutedéformation des joints.
Montage des vannes à cardans
Les sphères doivent être calées etmaintenues en position parallele contre labutée par la barre d’accouplement. Lorsdu montage sur tuyauteries, les liasions nedoivent pas supporter le poids duréfrigerant et ne subir aucune force radiale.Si la pression de travail excède 5 bar, ilconvient d’adapter séparement où sur lavanne elle-même un systèmed’équipression qui équilibrera le systèmeavant de pratiquer une opération detransfert. Les brides doivent être montéesen parfait alignement.
Montage des vannes transfertsimples où accouplées rigide
Les sphères doivent être calées etmaintenues en position parllele contre labutée.
Fonctionnement
Avant chaque manoeuvre, il faut équilibrerla pression et purger l’autre partie dusystème, ceci afin d’éviter l’entrée d’air. cetransfert s’effectúe de la facon suivante:
1. Ouvrez le robinet de purge non enservice;
2. Ouvrez le ligne d’équilibrage;3. Fermez le robinet de purge quand le
système est vide d’air;4. Après equilibrage de la pression, les
vannes peuvent être commutées en une operation. (Tournez à 90˚ L-bore et 180˚ T-bore). L’operation doits’effectuer normalement, sans effortimportant;
5. Après cette opération, fermez la ligned’équipression.
3G l o b a l F i l t r a t i o n T e c h n o l o g y
DDiimmeennssiioonnss MMooddeell AAThreeway transfer ball valve
Double threeway transfer ball valve rigidly coupled
Nm = change-over torque at equalized pressure. All sizes in mm.
RS = Rigid Size (No other sizes available)
4G l o b a l F i l t r a t i o n T e c h n o l o g y
Type DN L L1 h R kg Nm
A
310
310
350
155
155
175
158
158
170
350
350
350
37
37
59
15
15
20
65
80
100
A
300
300
345
78
78
127
30
30
40
350
350
350
65
80
100
Type DN RS kg Nm R
Type DN FS kg Nm R
A
480
480
510
80
80
135
30
30
40
350
350
350
65
80
100
Double threeway transfer ball valve flexibly coupled
FS = Flexible Size (required sizes to be specified)
SSppaarree ppaarrttss MMooddeell AA
5G l o b a l F i l t r a t i o n T e c h n o l o g y
Pos
1 O-ring
O-ring
Ball Seat
O-ring
Bushing
O-ring
Back-up Ring
Bushing
NBR
70 ̊shoreNBR
70 ̊shorePTFE
NBR
70 ̊shorePTFE
NBR
70 ̊shorePTFE
PTFE
Ø 79,5 x Ø 3 Ø 104,5 x Ø 3
Ø 91,5 x Ø 80 Ø 123 x Ø 105
Ø 124,5 x Ø 3 Ø 152 x Ø 3,53
Ø 35 x Ø 30 x18 Ø 35 x Ø 30 x18
Ø 29,2 x Ø 3 Ø 29,2 x Ø 3
Ø 35x Ø 30 x1,5 Ø 35x Ø 30 x1,5
Ø 40,5 x 13,5 Ø 40,5 x 13,5
81.10.150.20 81.10.150.25
81.10.150.19 81.10.150.23
86.15.085.28 86.15.085.29
81.10.150.26 81.11.150.29
86.17.085.28 86.17.085.28
81.10.150.02 81.10.150.02
86.18.082.08 86.18.082.08
86.19.085.08 86.19.085.08
2 2
2 2
2 2
1 1
1 1
2 2
4 4
1 1
q q
c
c
c
c
c
c
c
c
Ø 84,5 X Ø 3 Ø 114,5 X Ø 3
Description Material DN 65/80 DN 100
2
3
4
5
6
7
8
c = code number q = quantity for spare part kits per single ball valve
Type ANSI/DN L L1 h R m* kg Nm
AR
2 1/2" 65 310 155 158 350 110 x 2 37 15
310 155 158 350 126 x 2 37 15
350
350
450
175
175
225
170
170
230
350
350
500
154 x 2
154 x 2
205 x 2
59
71
135
20
20
40
3" 80
4" 100
5" 125
6" 150
Threeway transfer ball valve
Type ANSI/DN RS kg Nm R
AR
2 1/2" 65 300 78 30 350
300 78 30 350
345
345
435
127
152
285
40
40
80
350
350
500
3" 80
4" 100
5" 125
6" 150
Double threeway transfer ball valve rigidly coupled
Type ANSI/DN FS kg Nm R
AR
21/2" 65 480 80 30 205
480 80 30 205
510
520
665
135
160
300
40
40
80
250
250
350
3" 80
4" 100
5" 1256" 150
Double threeway transfer ball valve flexibly coupled
FS = Flexible Size (required sizes to be specified)
RS = Rigid Size (No other sizes available)
*Thread dimension + diameter of the raised face.
DDiimmeennssiioonnss MMooddeell AARR
Nm = change-over torque at equalized pressure. All sizes in mm.
8G l o b a l F i l t r a t i o n T e c h n o l o g y
SSppaarree ppaarrttss MMooddeell MMRR
Pos
1 O-ring
O-ring
Ball Seat
O-ring
Bushing
O-ring
Back-up Ring
Bushing
NBR
70 ̊shoreNBR
70 ̊shorePTFE
NBR
70 ̊shorePTFE
NBR
70 ̊shorePTFE
PTFE
Ø 34,2 x Ø 3
Ø 28,3 x Ø 1,78
Ø 36 x Ø 28,8
Ø 44,2 x Ø 3
Ø 20 x Ø 16 x 8
Ø 15,3 x Ø 2,4
Ø 20 x Ø16x1,5
Ø 26,5 x 7
Ø 40,95 x Ø 2,62
Ø 51,5 x Ø 41,5
Ø 69,5 x Ø 3
Ø26,7x Ø 22x10
Ø 22 x Ø 2,62
Ø26,7x Ø 22 x1,5
Ø 32,5 x 7
Ø 52,07 x Ø 2,62
Ø 61,5 x Ø 52,2
Ø 79,5 x Ø 3
Ø26,7x Ø 22x10
Ø 22 x Ø 2,62
Ø26,7x Ø 22 x1,5
Ø 32,5 x 7
81.10.150.03
81.11.150.48
86.15.085.23
81.10.150.38
86.17.085.23
81.10.150.36
86.18.082.03
86.19.085.03
2
2
2
2
1
2
4
1
q
81.10.150.14
81.11.150.45
86.15.085.25
81.10.150.91
86.17.085.25
81.11.150.13
86.18.082.05
86.19.085.05
2
2
2
2
1
2
4
1
q
81.10.150.16
81.11.150.17
86.15.085.26
81.10.150.19
86.17.085.25
81.11.150.13
86.18.082.05
86.19.085.05
2
2
2
2
1
2
4
1
q
c
c
c
c
c
c
c
c
Ø 49,5 X Ø 3 Ø 59,5 X Ø 3
Description MaterialANSI 1"DN 25
ANSI 11/2"DN 40
ANSI 2"DN 50
2
3
4
5
6
7
8
c = code number q = quantity for spare part kits per single ball valve
7G l o b a l F i l t r a t i o n T e c h n o l o g y
DDiimmeennssiioonnss MMooddeell MMRR
Type ANSI/DN L L1 h R m* kg Nm
MR
1" 25 180 90 100 205 54 x 2 10 5
230 115 107 250 74 x 2 16 5
250 125 112 250 92 x 2 22 10
11/2" 40
2" 50
Threeway transfer ball valve
Type ANSI/DN RS kg Nm R
MR
1" 25 200 24 10 205
220 35 10 250
235 48 20 250
11/2" 40
2" 50
Double threeway transfer ball valve rigidly coupled
Type ANSI/DN FS kg Nm R
MR
1" 25 290 24 10 205
340 38 10 250
350 50 20 250
11/2" 40
2" 50
Double threeway transfer ball valve flexibly coupled
FS = Flexible Size (required sizes to be specified)
Nm = change-over torque at equalized pressure. All sizes in mm.
RS = Rigid Size (No other sizes available)
* Thread dimension + diameter of the raised face.
6G l o b a l F i l t r a t i o n T e c h n o l o g y
SSppaarree ppaarrttss MMooddeell AARR
Pos
1 O-ring
O-ring
Ball Seat
O-ring
Bushing
O-ring
Back-up Ring
Bushing
NBR
70 ̊shore
NBR
70 ̊shorePTFE
NBR
70 ̊shorePTFE
NBR
70 ̊shorePTFE
PTFE
Ø 84,5 x Ø 3
Ø 79,5 x Ø 3
Ø 91,5 x Ø 80
Ø 124,5 x Ø 3
Ø35 x Ø30 x 18
Ø 29,2 x Ø 3
Ø 35 x Ø 30x1,5
Ø 40,5 x 13,5
Ø 104,5 x Ø 3
Ø 120,5 x Ø 105
Ø 152 x Ø 3,53
Ø35 x Ø30 x 18
Ø 29,2 x Ø 3
Ø 35x Ø 30 x1,5
Ø 40,5 x 13,5
Ø149,2 x Ø5,34
Ø 173 x Ø 150,5
Ø 22,9 x Ø 8,4
Ø55 x Ø45 x 19
Ø 44,2 x Ø 5,7
Ø 55x Ø 45 x1,5
Ø 60,5 x 10
81.10.150.20
81.10.150.19
86.15.085.28
81.10.150.26
86.17.085.28
81.10.150.02
86.18.082.08
86.19.085.08
2
2
2
1
1
2
4
1
q
81.10.150.25
81.10.150.23
86.15.085.29
81.11.150.29
86.17.085.28
81.10.150.02
86.18.082.08
86.19.085.08
2
2
2
1
1
2
4
1
q
81.10.150.29
81.11.150.47
86.15.085.31
81.10.150.13
86.17.085.31
81.10.150.40
86.18.082.11
86.19.085.11
2
2
2
1
1
2
4
1
q
c
c
c
c
c
c
c
c
Ø 114,5 x Ø 3 Ø 164,5 x Ø 5,7
Description Material ANSI 21/2"-3"DN 65/80
ANSI 4"-5"DN 100/125
ANSI 6"DN 150
2
3
4
5
6
7
8
c = code number q = quantity for spare part kits per single ball valve
9G l o b a l F i l t r a t i o n T e c h n o l o g y
FFllooww cchhaarraacctteerriissttiiccss MMooddeell AA
4455˚̊ SSwwiittcchh ppoossiittiioonnL-bore
4455˚̊ SSwwiittcchh ppoossiittiioonnT-bore
SSwwiittcchh ppoossiittiioonn(normal operation)
BBaallll bboorree ttyyppee
LL--BBoorree((9900˚̊ SSwwiittcchh))
NNoottPPoossssiibbllee
NNoottPPoossssiibbllee
TT--BBoorree((118800˚̊ SSwwiittcchh))
PPoossiittiioonn 11
PPoossiittiioonn 11 PPoossiittiioonn 11
PPoossiittiioonn 22 PPoossiittiioonn 33
NNOOTTEE:: All Cv values and curves shown are based on water at 20˚C
10G l o b a l F i l t r a t i o n T e c h n o l o g y
13G l o b a l F i l t r a t i o n T e c h n o l o g y
Due to continuous product improvement published data and specifications are subject to change without notice. / Aufgrund Produkt-Verbesserungen können Daten und Spezifikationenohne Mitteilung geändert werden. / En fonction de l’évolution technique du matériel, nous nous réservons le droit de modifier cette documentation sans préavis.