eccentric screw pumps - allweiler
TRANSCRIPT
VM 624 GB/2016.04 – Ident-Nr. 795853 1
Eccentric Screw Pumps SERIES ANP
Use Suitable for pumping low- to high-viscosity liquids, neutral or ag-gressive liquids, undiluted or abrasive liquids, liquids containing gases, liquids prone to foaming, including liquids with fibrous or solid particles.
Main fields of application Wastewater and clarification plants, chemical and petrochemical industries, paper and cellulose, soap and grease, paint and coat-ings, food and beverage, plastics, ceramics, agriculture, sugar in-dustry, shipbuilding, etc.
Function Self-priming, rotating displacement pump. The pumping elements are the rotor and the fixed stator. These two parts contact each other at two points in their cross-section. Viewed along the length of the pumping elements, these points form two sealing lines. As the rotor turns, sealed chambers are created. The content of the chambers is moved continuously in the axial direction from the suction side to the pressure side of the pump. Despite rotation of the rotor, no turbulence results. The consistent chamber volumes eliminate crushing forces and ensure an extremely gentle, low-pulse pumping action.
Structural design Discharge casing, stator, suction casing, and lantern base are held together by means of external casing connection screws (clamp bolts). The suction casings of all sizes are provided with large suction cross-sections. The stator is vulcanized into a pipe and is equipped on both ends with external collars that provide reliable sealing with the suction and discharge casings and protect the sta-tor casing from corrosion.
The exchangeable stuffing box casing or mechanical seal (can be retrofitted to another seal type) is located between the lantern base and suction casing.
The drive shaft is carried in bearings in the bearing housing. The drive torque is transmitted to the rotor via the drive shaft and a coupling rod. Both ends of the universal joint shaft end in liquid-sealed encapsulated pin joints that are designed to be very simple and robust and absorb the rotor’s eccentric movement without dis-turbances.
Shaft seal Shafts are sealed by cooled or uncooled stuffing boxes or cooled or uncooled, non-balanced single or double-acting mechanical seals which require no maintenance.
The type of seal and the material pairings are adapted to suit the particular operating conditions which exist in any given case.
For further details see page 5.
In any given size of pump, the housings for the various types of stuffing box or mechanical seal are interchangeable with one an-other. The various parts of the housings for mechanical seals form a modular system and can be combined with one another without any difficulty should the pump be converted to a different type of mechanical seal.
Mechanical seals to DIN EN 12756 can be fitted (double mechani-cal seal excluded).
For further details see pages 4, 5, 6, and 7.
Bearing The drive shaft is carried in particularly rugged deep groove ball bearings which are designed to withstand all appearing radial and axial loads. The bearings are lubricated for life.
For further details see page 4 and 6.
Exchangeability of parts The components of all progressing cavity pumps are designed to be modular. As a result, a customer who employs several pumps from various series and designs will be able to maintain a simple and cost-effective stock of reserve parts.
Drive For possible types of drive see page 9.
Drivers produced by any manufacturer can be used. Technical characteristics and dimensions should be taken from the docu-mentation issued by the manufacturer.
Installation Depending on the shaft seal, ANP pumps can be installed horizon-tally or vertically. When installed vertically, a “motor down” ar-rangement should be consulted the manufacturer.
The pump and driver are connected together via a flexible cou-pling or an intermediate transmission (generally a belt drive) and are mounted on a common baseplate. Dimensions of assemblies available on request.
VM 624 GB/2016.04 – Ident-Nr. 795853 2
Technical data Refer to the performance graph on Page 3 or the separate individ-ual curves for data on pump capacities, permissible speed ranges, and required drive output.
Capacity Q l/min up to 42
Liquid temperature t °C up to 150
Two-stage discharge pressure ∆p bar up to 12
Four-stage discharge pressure ∆p bar up to 24
Outlet pressure pd bar up to 16(25)
Achievable under pressure psbar up to 0,95
Viscosity η mPas up to 20.000
Permissible proportion of solids
Vol%
up to 60
depends on pumped liquid and selected elastomers
possible for size 3 and 6.
depends on rotational direction and inlet pressure depends on pump size/design, speed, pumped liquid
For size 3 and 6 at the suction and pressure connection thread store.
The provided performance specifications are meant only as a product/performance overview. Refer to the quotation and order confirmation for precise operational limits.
Maximum permissible grain sizes and fiber lengths:
Size 3 6 12
Max. grain size in mm 1 1,5 2
Max. fiber length in mm 35 35 35
Pump speed must be reduced as the proportion of solids and the grain size increase.
VM 624 GB/2016.04 – Ident-Nr. 795853 3
Performance graph for rough selection of pump size and speed depending on desired capacity and the type of liquid. vg "m" = existing average sliding speed of the rotor in the stator.
Sizes in ANP series. Refer to the reverse side of this technical documentation or the technical documentation of the other series for data on the performance range not covered by ANP. See individual curves for precise performance data.
VM 624 GB/2016.04 – Ident-Nr. 795853 4
Explanation for the type key: Position in type key
Designation Version
① Series ALLWEILER progressing cavity pump
② Size Possible sizes: 3, 6 , 12
The figures indicate the theoretical capacity in l/min. at n = 400 1/min and ∆p = 0 bar.
③ Number of stages 2 = Two stage up to 12 bar
4 = Four stage up to 24 bar (sizes 3, 6)
④ Bearing B = Two deep groove ball bearings with sealing washer to the outside, open to inside of the bearing housing. Small tolerances between shaft and bearing housing on drive side and between thrower and bearing housing on pump side prevent the ingress of dirt into the bearing housing.
X = Special-type bearing
⑤ Suction and dis-charge branch ver-sion
1 = DIN flange (available only with casing material EN – GJL – 250)
2 = Thread connections acc. to dimension sheet p. 6
X = Special suction and/or pressure branch
⑥ Branch position 1, 2, 3, 4 - See diagram on page 9 for arrangement
⑦ Shaft seal type P = Stuffing box or other non-mechanical shaft seal
G = Mechanical seal (mechanical shaft seal)
⑧ Shaft type 0 = Shaft without shaft sleeve
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⑨ Shaft seal version P.1 = Stuffing box in normal version (without seal chamber ring/without flush ring) P.2 = Stuffing box with flushing ring P.3 = Stuffing box with inner-lying seal chamber ring P.4 = Stuffing box with outer-lying seal chamber ring P.X = Non-mechanical shaft seal in a special version
G.0 = Mechanical seal, single-acting, unbalanced, directionally independent, with single spring, Secondary elastomer seals G.1 = like G.0, but with multiple springs G.2 = like G.0, but secondary seals jacketed with double PTFE G.3 = like G.1, but secondary seals jacketed with double PTFE G.4 = like G.0, but with throttled barrier fluid leakage in the pump space G.5 = like G.4, but with multiple spring G.6 = like G.4, but secondary seals jacketed with double PTFE G.7 = like G.5, but secondary seals jacketed with double PTFE G.8 = Mechanical seal, double acting, unbalanced, directionaly independent, with multiple spring, secondary elastomer seals or product side secondary seals double PTFE-coated and barrier fluid side secondary elastomer seals G.9 = like G.8, but all secondary seals jackete with double PTFE G.X= Special mechanical seal version
⑩ Double jacket D = Double jacket for heating or cooling. Available only with stainless steel version
⑪ Double jacket version
1 = Suction casing with double jacket
X = Special version for additional double jackets
⑫ Variations S = Worm on U-joint shaft N
W = Winding protection on U-joint shaft M
Y = Hard-chromed ductile rotor H
T
X = other versions
⑬ Casing part materials
1 = EN-GJL-250
4 = 1.4408 X = Special materials
⑭ Rotating parts, contacting liquid (without rotor and joint collars) material
4 = 1.4571/1.4408
X = Special materials, e.g. also on joint parts
⑮ Rotor material
3 = 1.2436
4 = 1.4571 X = Special materials, e.g. other metals, synthetics
⑯ Stator material
WB = Natural rubber, soft Y = Hypalon SL = Silicon, light ①
P = Perbunan N V = Viton
PL = Perbunan, light HP = Perbunan/hydrogenated
E = EPDM YL = Hypalon light PT = Teflon, fiberglass reinforced
PU = Polyurethane A = ALLDUR X = Special materials, e. g. metals,
synthetics, elastomers
⑰ Joint sleeve material
P = Perbunan N Y = Hypalon O = No joint collars
PL = Perbunan, light V = Viton X = Special materials
B = Butyl rubber
⑱ Shaft seal material
Stuffing box:
5846 = Ramie fiber with PTFE impregnation, asbestos-free
6426 = Aramide endless fiber with PTFE impregnation, asbestos-free
6230 = Graphite-incorporated PTFE with lubricant, asbestos-free
Mechanical seal:
Pairing of sliding materials Springs and construction materials
Secondary seals
1st position when single seal
1st + 4th position when double seal
2nd position
3rd position when single seal
3rd + 5th position when double seal
2 = Cast CrMo/hard carbon
4 = Ceramic/hard carbon
5 = Carbide/carbide highly wear resistant
6 = Silicon carbide/silicon carbide highly wear resistant, corrosion resistant
7 = Silicon carbide/silicon carbide highly wear resistant, highly corrosion resistant
X = Special materials
A = 1.4300
F = 1.4571
L = Hastelloy B
M = Hastelloy C4
X = Special materials
P = Perbunan ① doppelt-
E = EP rubber PTFE-
S = Silicon rubber jacketed
N = Neoprene
V = Viton
TTE = EP rubber ①
TTV = Viton ①
TTS = Silicon rubber ①
X = Special materials
① Not possible for four stages
other versions with dependence on liquid temperature
VM 624 GB/2016.04 – Ident-Nr. 795853 6
Sectional drawing and directory of individual parts
Part No. Part name Part No. Part name Part No. Part name 101 Key 209 Seal chamber ring 402 Stator 102 Spacer sleeve 212 Screw plug 403 Pressure-side stator seal 103 Radial bearing 213 ③ Seal ring 404 Suction-side stator seal
104 Axial bearing 214 Mechanical seal housing 501 Suction casing O-ring 107 Bearing grease 215 Mechanical seal cover 502 Screw plug 110 Bearing housing 218 O-ring 503 Seal ring 114 Thrower 219 Mechanical seal 504 Discharge casing 118 Drive shaft 220 ① Locking pin 505 Suction casing
121 Circlip 301 Joint pin 601 Nameplate 127 Circlip 303 Bush for point pin 602 Round head grooved pin 129 Spacer ring 304 Joint sleeve 603 Information plate „Start up“ 201 Stud bolt 305 Joint oil 604 ② Information plate „Suction“
202 Selflocking Nut 306 Joint clamps 605 ② Information plate „Discharge“
203 Gland 307 Universal joint shaft 609 Hexagon nut 204 Stuffing box casing 308 Joint collar 610 Washer 207 Gland packing 401 Rotor 611 Clamp bolt 208 Flushing ring
① only fitted to types G02 to G09.
② With normal rotational direction only (left when viewed from drive end)
If direction changed info plates are exchanged in accordance with branch change.
③ With shaft seal types G04 to G07 screwed plug sealed with Loctite.
Pump in base version
Worm on joint shaft
Winding protection on joint shaft
Stator of plastic material
Part 304 punched once to secure
Part 101 punched twice to secure
Bearings = B (lubricated for life) Shaft seal: P01 Stuffing box of standard type (no lantern ring/no flushing ring). Particularly long packing allows pump to be used in a wide variety of applications. Permitted pressure at shaft seal p = -0.7 to 3.0 bar
VM 624 GB/2016.04 – Ident-Nr. 795853 7
P02 Stuffing box with flushing ring.
Suitable for highly abrasive pumped liquids with external flushing. p = -0.7 to 8 bar
P03 Stuffing box with internal lantern ring.
Suitable for uncontaminated pumped liquids with internal liquid sealing, or for abrasive pumped liquids with external liquid sealing. p = -0.8 to 6 bar
P04 Stuffing box with external lantern ring
For use where external sealing liquid incompatible with pumped liquid or where the ingress of air is to be prevented p = -0.9 to 4.0 bar
G 00 to G 03 Mechanical seal, single G 04 to G 07 Mechanical seal, single G 08 and G 09 Mechanical seal, double acting non-balanced, either acting non-balanced, either acting non-balanced, either direction of rotation, direction of rotation, direction of rotation (type G 02 shown in drawing). with throttled outlet for seal (type G 09 shown in drawing).
For pressures of p = -0.5 to 10 bar liquid into pump chamber Can be used for pressures of p = -0.95 - consult manufacturers. (type G 06 shown in drawing). to 15 bar – consult manufacturers.
Can be used for pressures of p = -0.5 to 10 bar – consult manufacturers.
VM 624 GB/2016.04 – Ident-Nr. 795853 8
Pump dimensions, auxiliary connections, weights
Type Female threads DIN EN 10226-1 NPT-female threads: USAS B2.1-1968 M1)
b c d e f h i l m1 m2 n o q s R23) DN1 DN2 R12) g k p w DN1 DN2 R1 g k p w kg
ANP 3.2 381
10 20 70 85 80 125 30 60 35 17 253
160
9 Rp1/4Rp1
G1/4 135
523 270
17 1-11 ½ NPT
¼-18 NPT 135
523 270
17
11
ANP 3.4 501 230 643 390 643 390 12
ANP 6.2 421 160 563 310 563 310 11,5
ANP 6.4 581 310 723 470 723 470 13
ANP 12.2 457 190 Rp1 1/4 599 346 1 ¼-11 ½ NPT 599 346 12
1) maximum mass kg 2) DIN EN ISO 228-1 3) DIN EN 10226-1 Dimensions in mm. Nominal dia. of suction, discharge, and aux. connections in inch. Direction of rotation: normally left when viewed from drive end, hereby: DN1 = discharge branch, Dir. of rotation may be changed, then DN1 = suction branch, DN2 = discharge branch.
Type DIN EN 1092-2 PN 16 M1)
b c d e f h i l m1 m2 n o q s R23) R12) DN1 k4) p4) w4) DN2 g4) kg
ANP 3.2 381
10 20 70 85 80 125 30 60 35 17 253
142
9 Rp1/4 G1/4 25
541 288
35 25 150
13,9
ANP 3.4 501 212 661 408 15
ANP 6.2 421 142 581 328 14,4
ANP 6.4 581 292 741 488 16
ANP 12.2 457 172 617 364 13,2
1) maximum mass kg 2) DIN EN ISO 228-1 3) DIN EN 10226-1 4) when rubber coated: +3 mm Dimensions in mm. Nominal dia. of auxiliary connections in inch Direction of rotation: normally left when viewed from drive end, hereby: DN1 = discharge branch, DN2 = suction branch. Dir. of rotation may be changed, then DN1 = suction branch, DN2 = discharge branch.
q = space for disassembly Branch position DN2
Key
Key
q = space for disassembly
Branch position DN2
VM 624 GB/2016.04 – Ident-Nr. 795853 9
Arrangement of auxiliary connections on shaft seal
(viewed from drive)
Auxiliary connections with double jacket for heating or cooling
Connection diameters of auxiliary connections (all sizes)
Flushing Sealing Heating/cooling
①
R3
①
R6
①
R4/R5
①
R7/R8
②
R9/R10
Rp 1/8 Rp 1/4 Rp 1/8 Rp 1/4 R 3/8
① Screw hole DIN 3852, form Z
② Pipe thread DIN EN 10226
All auxiliary connections available upon request with NPT threads with same nominal diameter.
Stuffing box P 02
Stuffing box P 03 and P 04
Mechanical seal G 04 and G 07
Mechanical seal G 08 and G 09
VM 624 GB/2016.04 – Ident-Nr. 795853 10
Possible branch positions viewed from drive
1 normal
1 ANP with flexible coupling and electric motor
2 ANP with flexible coupling and geared motor
4 ANP with V-belt-drive, adjustable motor platform and motor situated behind the pump
3 ANP with flexible coupling and internal combustion engine
6 ANP with flexible coupling and infinitely variable speed gear
5 ANP with V-belt-drive, adjustable motor, platform and motor situated above the pump
7 ANP with flexible coupling, gear box or variable speed gear, flexible coupling and motor
VM 624 GB/2016.04 – Ident-Nr. 795853 11
VM 624 GB/2016.04 – Ident-Nr. 795853
Progressing cavity pump product line
Series Number of stages
Max. capacity at ∆p = 0 bar m³/h
l/min
Max. pump pressure bar
Max. viscosity mPa * s
AE1F 1 228 3800 6 300.000 AEB1F 1 228 3800 6 300.000 AE1L-ID 1 162 2700 4 200.000 AE.E-ID 1,2 450 7500 10 300.000 AE.N-ID 1,2 290 4850 16 270.000 AE.H-ID 2,4 174 2900 24 270.000 AEB1L-IE 1 162 2700 4 200.000 AEB.E-IE 1,2 174 2900 6 300.000 AEB.N-IE 1,2 111 1850 12 270.000 AEB4H-IE 4 12 200 24 270.000 AE.N…-RG 1,2,4 30 500 20 1.000.000 TECFLOW 1 162 2700 4 200.000 SEZP 1,2 21 350 10 1.000.000 SNZP 1,2 45 750 12 1.000.000 SNZBP 1,2 45 750 12 1.000.000 SSP 1,2 48 800 12 150.000 SSBP 1,2 48 800 12 150.000 SETP ① 1,2 140 2350 10 300.000 SETBP 1,2 40 670 10 150.000 SEFBP 1 40 670 6 150.000 SMP 1 40 670 6 150.000 SMP2 1 5,5 92 6 11.500 AFP 1 2,8 47 6 50.000 ANP 2,4 2,5 42 24 20.000 ANBP 2 2,5 42 12 20.000 ASP 2 2,5 42 12 20.000 ASBP 2 2,5 42 12 20.000 ADP 3 0,6 10 12 20.000 ADBP 3 0,6 10 12 20.000 ACNP 1,2 29 480 12 150.000 ACNBP 1,2 29 480 12 150.000 ① available in special version for higher pressure.
Progressing cavity Peristaltic pumps
Series Max. flow rate m³/h
l/min
Max. pump pressure bar
Max. viscosity mPa * s
ASL 2,4 40 4 100.000 ASH 60 1000 15 100.000
Progressing cavity Macerators
Series Max. flow volume m³/h
Static pressure head m
AM … S-1 80 at 3% dry substance
3
ABM S-1 80 at 3% dry substance
3
AM … I-1 160 at 3% dry substance
-
ABM I-1 80 at 3% dry substance
-
Progressing cavity Accessories
Pump accessories: Stator adjustment devices, electric heating units, bridge breakers. Drives: Electric motors, gear motors, variable gearbox, reduction gearbox, combustion
motors, pneumatic and hydraulic drives. Power transmitting parts: Couplings, V-belts, toothed belt drives, other transmission devices. Safety equipment: Bypass lines with safety or control valve, dry-running protection systems (con-
ductive, capacitive, thermal etc.). Pump skid accessories: Electric, hydraulic or pneumatic control devices, separators, dosing equipment,
barrier fluid and circular systems for shaft seals, fittings, flanges, hoses.
Subject to technical changes.
ALLWEILER GmbH
Postfach 200123 • 46223 Bottrop Kirchhellener Ring 77–79 • 46244 Bottrop Germany Tel. +49 (0)2045 966-60 Fax +49 (0)2045 966-679 E-mail: [email protected] Internet: http://www.allweiler.com