HomeMy WebLinkAboutComponent Specs.Item #
I5OOT.2GP.HH
{5OO Gallon Top Seam
Two Gompartment
w¡th l{igh llead Pump
DESIGN NOTESr Design per performonce test pcr ASTM
c't227. Top surfoce oreo 62.33 ftrr fc O 28 do)æ; concrete = 6,000 PSI
Min.
lnstollotlon:¡ Tonk to bc sct on 5' min. sond bad or
peo grovel¡ Tonk to be bockfllled unlformly on oll
sides ln llfts lcss thon 24' ond
mechonicolly compocted¡ Excor¡oted moteriol moy be used for
bockfill, provided lorge stones ore
remor¡ed¡ Excovotion should be dcwotered ond
tonk fllled with woter prior to being put
in service for instollotion with woter
toble less thon 2' below grode¡ Meets C1644-0ô for resilient connectors¡ lnlct ond Outlct idcntificd obovc pipc¡ Dellvered complete wlth lntemol plplng¡ PVC risers ovoiloble¡ Secondory sofety screen owiloble with
PVC riser
ALLOWABLE BURY
(Bosed on Woter Toble)
WAIER TABLE ALLOWABLE
EARTH NLL
0'- 0'3'- 0'
1'- 0'3'- 0'
2'-O'4'- 0'
3'- O'¡+' - o'
DRY 4'-O'
Top
View
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Sec'tion
24" Minimum
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Digging Specs lnvert Dlmenslons Net Copocity Net Weight
f 3' Long x 8' l{lde
56' below inlet
lnlet Outlet Lenoth wdth
Min.
Heloht lnlet Slde Outlet Totol Ltd Tonk Totol
56'73'132'68'92'1002 gol 507 gol 1509 gol 3600 lbs 11l8O lbs 14980 lbs
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Item #
Dm
Tank Deadman
(Ant¡ Buoyancy)
24n_
Top
View
o #4 Rebar Lifting Eye. 6000 psi concreteo 600 lbs. Cable is not provided
ll
Section
View 1 l".-23 Suggested lnstallation :
Two fu" cables
(Not provided)
Tumbuckle on
one side b
tighten cable
beble installation
(Supplied by Oüens)
Tank
lnstallation
NOTE:
Please refer to Buoyancy Engineering
for each tank fur conect number of
deadmen needed.
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VALLEY :Ëffiffirlnc.rs*dee
Double Walled PVG Riser & t¡d Options
Poly Lid
(Static load bsþd b 5000lbs)o Skid losisilence sur{aoe. Avallable in grcen. Highest level of W Probclion induded. lncludee a bam gasket br airlight and
Yvaterti g ht appl ications. lncludes square drive scrars b discourage
unauüorized enüy. lnsulation panels achieve R-10 ineulalim natirp
2'of Insulalim
Sûandald
Orenco @ DunaFiber* Access Lids (FLD)
Not recommended br vehicular ffic
24 and 30'Diamebl¡. Sol¡d, ræin-infused fibeqlass consh¡ction. 20,flX1-lb braaking süongüt. Standad grsen or brourn ælorc. Available wilh or without ulahane lid gnsket. Available wiü carbon filfralion. 4 stainless sbelf,athead socketcapscr€rffE & hox
keywrencfr. lnsulabd lids availaHe-t or4I
Double Walled PVC Riser
. Available in24'and 3(I Diamebr¡ Gut b lengürr Sold in +/- 2' inqsnenb. Must be cut betrcen ribe
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Biotube@ ProPak Pump PackagerM
60-Hz Series Pump Packages
Control panel
General
Orenco's Biotube@ ProPaK' is a complete, integrated pump package for
filtering and pumping effluent from septic tanks. And its patented pump
vault technology eliminates the need for separate dosing tanks.
This dæument provides detailed information on the ProPak pump vault
and filtq 4-in. (100-mm) 60-Hz turbine effluent pump, and control panel.
For more information on other ProPak components, see the following
0renco technical dæuments:
. Float Switch Assemblies (NSU-MF-MF-1)
o Discharge Assemblies (NTD-HV-HV-1 ). Splice Eoxes (NTD-SB-SB-1)
. Erternal Splice Box (NTD-SB-SB-1)
Applications
The Biotube ProPak is designed to filter and pump effluent to either
gravity or pressurized discharge points. lt is intended for use in a septic
tank (one- or two-compartment) and can also be used in a pump tank.
The Biotube ProPak is designed to allow the effluent filter to be removed
for cleaning without the need to remove the pump vault or pump, simpli-
fying servicing.
Complete packages are available for on-demand or timed dosing sys-
tems with flow rates of 20, 30, and 50-gpm (1.3, '1.9, and 3.2 Usec),
as well as with 50 Hz and 60 Hz power supplies.
Standard Models
BPP2ODD, BPP2ODD-SX, BPP3OTDA, BPP3OTDD.SX, BBPPsOTDA,
BPP5OTDD.SX
Product Gode Diagram
t _r
Standard options:
Blank = 57-in. (1448-mm) vault heighl, internal
splìce box, standard d¡scharge assembly68 = 68'in.(1727-mm)vaultheight
SX = exlernal splice box
CW = coldweatherdischargeassembly
DB = drainbackdischargeassembly0 = cam lock
MFV = n0n-mercuryfloat
Control panel app¡ication:
DD = demand-dosino
ïDA = timed-dosing, analog timer
TDD = limed dosing, diqital timer, elapsed time
meter& counteß
Pump flow rate, nominal:
20 = 20Spm(1.3Usec)
30 = 30 Spm (1.9 Usec)
50 = 50 gpm (3.2 Usec)
Biotube@ ProPaK" pump vault
External splice box
(0ptional; internal splice
box comes standard
Riser lid
(not included)
)
Float
bracket
Support pipe
Pump vault
Float stem
Floats
Float collar
Vault inlet holes
4-in, (100-mm)
turbine effluent pump
Biotube@ filter
cartridge
Riser (not
included)
Discharge
assembly
Pump
liquid end
Pump motor
BPP
Biotubf ProPakrM pump package componenß.
orenco Systems@ lnc. ,814 Airuay Ave., Sutherl¡n, 0R 97479 USA . 800-348-984Íl . 541-459-¡1449 . wu,worenco.com f{TD-BPP-1
ReY. 1.2, O 08/14
Page 1 ol 4
ProPaK" Pump Vault Biotube@ Filter Gartridge
Materials of Gonstruction Materials of Construction
Vault body Polyethylene Filter tubes Polyethylene
Support pipes PVC Cartridge end plates Polyurethane
Dimensions, in. (mm)Handle assembly PVC
A - Overall vault height 57 (1 448) or 68 (1 727)Dimensions, in. (mm)
B - Vault diameter 17.3 (439)A - Cartridge height 18 (457)
C - lnlel hole height 1e (475)B - Cartridge width 12 (305)
D - lnlet hole diameter (e¡ght holes total)2 (50)Performance
E - Vault top to support pipe bracket base 3 (76)
F - Vault bottom to filter cartridge base 4 (102\
I
D
AC
ProPakrv pump vault (shown with Biotube filter and effluent pump)
Biotube@ mesh opening 0.125 in. (3 mm).
Total filter flow area 4.4f( (0.4 n2)
Total filter surface area 14.5 ft'z (1 .35 m'z)
Maximum flow rate 140 gpm (8.8 Usec)
'0.062-ln. (1.6-nn) filter nesh avallable
B+l
BiotubP filter cartridge (shown with float switch assembly)
E
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iITD-BPP.1
Rev.1,2, @ 08/14
Pagezol 4
0renco Systemso lnc,,814 Airuay Ave,, Suthedin,0R 97479 USÀ e 800-348-9843 . 541-459-4449 . www,orenco,com
4-in. (100-mm) Turbine Effluent Pumps
Orenco's 4-in. ('100 mm) Turbine Effluent Pumps are constructed of
lightwei ght, conosion-resistant stainless steel and engineered plastics;
all are field-serviceable and repairable with common tools. All 60-Hz
PF Series models are CSA certified to the U.S. and Canadian safety
standards for effluent pumps, and meet UL requirements.
Power cords for Orenco's 4-in. (100-mm) turbine effluent pumps are
Type S00W 600-V motor cable (suitable for Class 1, Division 1 and 2
applications),
Materials of Construction
Discharge:Stainless steel or glass-filled polypropylene
Discharge bearing: Engineered thermoplastic (PEEK)
Diffusers:Glas-filled PPO
lmpellers:Acetal (20-, 30-qmp), Noryl (50-qpm)
lntake screens:Polypropylene
Suction connection: Stainlæs steel
Drive shaft:300 series stainless steel
Coupling Sintered 300 series stainless steel
Shell:300 ser¡es stainless steel
Lubricant:Deionized water and propylene glycol
Specifications
Pump Gurves
Pump curves, such as those shown here, can help you determine
the best pump for your system. Pump curves show the relationship
between flow (gpm or Usec) and pressure flDH), providing a graphical
representation of a pump's performance range. Pumps perform best
allhetr nominalflow rate, measured in gpm or Usec.
Flow in liters per second (Usec)
0.03 1.26 t.89 2.52 3.r5 3.79 4.42
140
PF 4ilb11
i
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PF ilXt511
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43
37
30
24
18
12
6
Nom. floq
gpm (Usec)
Lengrür
in, (mm)
Weigtrt
lb (ks)
Discharge lmpellers
in., nominal 1 10 20 30 40 50 60 70
Flow in gallons per ninute (gpnl
20 (1.3) 22.5 (572) 26 (11) 1.25 4
30 (1.9) 21.3 (541\ 25 (11) 1.25 e
50 (3.2) 20.3 (516) 27 (12) 2.00 2
Performance
Nom. flow
gpm (Usec)
hp(l(W) Design
flow
Min liquid
level, in. (mm) 2
Rated
cycleVday
20 (1,3) 0.5 (0.37) 12.3 300 18 (457)
30 (1.9) 0.5 (0.37) 11.8 300 20 (508)
50 (3.2) 0.5 (0.34 12.1 300 24 (610)
1 D¡scharge is female NPT threaded, U.S, n\ninal s¡ze, to acconnodate orencæ d¡scharge
hlse and va¡ve assenbl¡es. Consult you orenc, Distributor about fittings to c\nnect d¡scharge
assenbl¡es t0 metilc-s¡zed pip¡ng.
,
^l¡nimun
liquid levet is f\r single punps when ¡nstalled ¡n an )renc1q¡otubP ProPakrM Punp
Vault.
orenco Systemso lnc, ,814 Âiruay Ave., Sutherlin,0R 97479 USA . 800-348-9{l¡li} . 541-459-4449 . www.orenco.com I{TD-BPP-I
Rev..l.2, @ 08i/1¡[
Page 3 of 4
Orenco
Control Panel (Demand Dose)Gontrol Panel (Timed Dose)
Orenco's ProPaK" demand dose control panels are specifically engineered
for the ProPak pump package and are ideal for applications such as
demand dosing from a sept¡c tank into a conventional gravity drainfield.
Materials of Construction
0renco's ProPak timed dose control panels are spæifically engineered for
the ProPak pump package and are ideal for applications such as timed
dosing from a septic tank into a pressurized drainfield or mound. Analog or
digital timers are available,
Materials of Construction
Enclosure UV-resistant fiberglass, UL Type 4X Enclosure UV-resistant fiberglass, UL Type 4X
Hinges Stainless steel Hinges Stainless steel
Dimensions, in. (mm)Dimensions, in. (mm)
A - Height 11.5 (290)A - Height 11.5 (2e0)
B - Widrh 9,5 (240)B - Width 9.5 (240)
C - Depth 5.4 (135)C - Depth 5.4 (135)
Specifications Specifications
Panel ratings 120U,314 hp (0.56 kW,14A, single phase,60 Hz Panelratings 120V,314 hp (0.56 kW),144, single phase,60 Hz
1. Motor-start contactor 16 FLA, t hp (0.75 k\'V),60 Hz;2.5 million cycles
at FLA (10 million at 5070 of Fl-A)
Dual-mode Programmable for timed- or demand-dosing
(digital timed-dosing panels only)
2. Circuit 120 V, 10 A, 0FF/0N switch, Single pole breakers
3. Toggle switch Single-pole, doublelhrow H0A switch, 20 A
4. Audio alarm 95 dB at 24 in. (600 mm), warblelone sound, UL
Type 4X
5. Audio alarm 120 V automatic reset, DIN rail mount silence
6. Visual alarm 718-in. Q2-nn) diameter red lens, "Push{o-silence,"
1 20 V LED, UL Type 4X
Control panel, demand-dose
120 V repeat cycle from 0.05 seconds to 30
hours. Separate variable controls for OFF and
0N time periods
120-V programmable logic unit with buillin LCD
screen and programming keys. Provides control
funclions and timing for panel operation
2. Motor-startcontactor 16 FLA, l hp (0.75 kW),60 Hz; 2.5 million cycles
at FLA (10 million at 50% of Fl-A)
3. Circuit breakers 120 V 1 0 A, 0FF/0N switch. Single pole 120 V
4. Toggle Switch Single-pole, doublelhrow HOA switch, 20 A
5. Audio alarm 95 dB at 24 in. (600 mm), warble{one sound, UL
Type 4X
6. Visual alarm 7/9-in. Q2-nn) diameter red lens, "Push{o-silence",
1 20 V LED, UL Type 4X
Control panel, timed-dose (digital timer model shown)
1a. Analog timer
(not shown)
1b. Digital timer
(shown below)
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I'IID-BPP.1
Rev. 1.2, @ m/14
Page 4 of 4
0renco Systemso |nc,,814 Airuay Ave,, Suthedin,0R 9747S USA .800-348-9843 ¡ 541-459-4449 . wwworenco,com
f
PF Series 4{nch (1 00-mm)
Submersible Etfluent Pumps
Orenco
Applications
Our 4-inch (100-mm) Submersible Effluent Pumps are designed to
transport screened effluent (with low TSS counts) from septic tanks or
separate dosing tanks. All our pumps are constructed of lightweight,
conosion-resistant stainless steel and engineered plastics; all are field-
serviceable and repairable with common tools; and all 60-Hz PF Series
models are CSA certified to the U.S, and Canadian safety standards for
effluent pumps, meeting UL requirements.
Orenco's Effluent Pumps are used in a variety of applications, including
pressurized drainfields, packed bed filters, mounds, aerobic units, effluent
irrigation, effluent sewers, wetlands, lagoons, and more. These pumps
are designed to be used with a Biotube@ pump vault or after a secondary
treatment system.
-
Discharge Connection
-
Bypass Orifice
Franklin
Liquid End
-
Suction Connection
Franklin
Super Stainless
Motor
Features/Specif icati ons
To specify this pump for your installation, require the following:
¡ Minimum 24-hour run-dry capability with no deterioration in pump life
or performance.
¡ Patented 1Æ-inch (3-mm) bypass orifice to ensure flow recirculation
for motor cooling and to prevent air bind
. Liquid end repair kits available for better long{erm cost of ownership
. TRI-SEALTM floating impeller design on 10, 15, 20, and 30 gpm
(0.6, 1 .0, 1.3, and 1.9 Usec) models; floating stack design on 50 and
75 gpm (3.2 and 4,7 Usec) models
r Franklin Electric Super Stainless motor, rated for continuous use and
frequent cycling
. Type S00W 600-V motor cable
. Five-year warranty on pump or retrofit liquid end from date of manu-
facture against defects in materials or workmanship
. Not appl¡cable for 5-hp (3.73 kW models
Standard Models
See specifications chart, pages 2-3, for a list of standard pumps. For
a complete list of available pumps, call 0renco.
Product Gode Diagram
¡
20 = 20 (6)
50 = 5o(1s)
Voltage, nameplate:
1 = 115', 200 = 2002=230¡ 4 =460
Frequency:
1 = single-phase 60 Hz
3 = three-phase 60 Hz
5 = single-phase 50 Hz
05 = 14 hp (0.34
10 = t hp(0.75)
20 = 2hp(1.50)
50 = 5hp(3.73)
Nominal flow, gpm (Usec):
PF
Cord length, ft (m):+
Blank = 10(3)30 = 30 (e)
Horsepower (kW):
03 = '/á hp (0.25)
07 = %hp(0.56)
15 = 1-/znp(.11)
30 = 3hp(2.24)
10 = 10
20=20
50=50
(0.6) 15 = 15 (1.0)
(1 3) 30 = 30 (1.e)(3.2) 75 -- 75 (4.7)
"@î. W
L880980
L82053896
Powered by
Fnanklin Electric Pump, PF Series
. 1á-hp (0.37kW1 only
1220 volts for 50 Hz pumps
tNote: 2oJoot cords are available only for sìngle-phase pumps through 1 -1á hp
Orenco Systems@ lnc. ,814 Airuay Ave., Sutherlin,0R S7479 USA .800-348-9tl¡l{l .541-459-4449 . www.orenco.com ¡¡TD-PU-PF.1
Bev.2,2, @ 09/14
Page 1 of 6
Orenco
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Pump Model
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PF1 0051 1 10 (0.6) 0.50 (0.34 1 1 1 5 120 12.7 12.7 6 1 /¡ in. GFP 23.0 (660) 16 (+06) 26 (12) 300
PF1 0051 2 10 (0.6) 0.50 (0.34 1 230 240 6.3 6,3 6 1 1/¿ in. GFP 23.0 (660) 16 (406) 26 (12)' 300
PF1 0053200 10 (0.6) 0.50 (0.37) 3 200 208 3.8 3.8 6 1 % in. GFP 23.0 (660) 16 (406) 26 (12) 300
15 (1 .0) 0.33 (0.25) 1 1 1 5 120 8.7 8.8 3 1 /q in. GFP 19.5 (495) 15 (380) 23 (10) 300
PF100712 4'5 1 0 (0.6) 0.75 (0.56) 1 230 240 8.3 8.3 8 I /¿ in. GFP 25.9 (658) 17 (432) 30 (14) 300
PF10073200 4,5 10 (0.6) 0.75 (0.56) 3 200 208 5.1 5.2 I 1 /¿ in, GFP 25.4 (645) 17 (432\ 31 (14) 300
PF1010125,6 10(0.6) 1.00(0.75) 1 230 240 9.6 9.6 9 112¿in,GFP 27.s(709) 18Ø5n $(15) 100
PF10103200 t 6 10 (0.6) 1 .00 (0.75) 3 200 208 5.5 5.5 9 1 1/¿ in. GFP 27.3 (693) 18 $5n 37 (7) 300
PF1020125'6'7,8 10 (0.6) 2.00 (1.49) 1 230 240 12J 12J 18 1 % in. SS 39.5 (1003) 22(55s) 48(22) 100
PF1020325,6,8 10(0.6) 2.00(1.49) 3 230 240 7.5 7.6 18 1/¿in.SS 37.9(963) 20(508) 44(20) 300
PF102032005'6,8 10(0.6) 2.00(1.49) 3 200 208 8.7 8.7 18 I/¿in.SS 37.9(963) 20(508) 44Q0\ 300
PFl 5031 1
PFl 5031 2 15 (1.0) 0,33 (0.25) 1 230 240 4.4 4.5 3 1 !z¿ in. GFP 19.5 (495) 15 (380) 23 (10) 300
PF20051 1 20(1.3) 0.50(0.37) 1 115 120 12.3 12.5 4 1lqin.GFP 22.3(566) 18(457) 25(11) 300
PF200512 20 (1 .3) 0.50 (0.37) 1 230 240 6.4 6.5 4 1 lq in. GFP 225 (572) 18 (¿57) 26 (12) 300
30(1.9) 0.50(0.34 1 115 120 11.8 11.8 3 11l¿in.GFP 21.3(541) 20(508) 28(13) 300
PF20053200 20 (1 .3) 0.50 (0.34 3 200 208 3.7 3.8 4 1 lq in. GFP 22.3 (566) 18 Ø5n 26 (2) 300
PF201012 4'5 20 (l .3) 1 .00 (0.75) 1 230 240 10.5 1 0.5 7 1 lt in. GFP 28/ (721) 20 (508) 33 (15) 100
PF20103200 4,5 20 (1 .3) 1 ,00 (0.75) 3 200 208 5.8 5.9 7 1 /+ in. GFP 27 .8 (706) 20 (508) 33 (1 5) 300
PF201512 4'5 20 (1 .3) 1 ,50 (1 .1 1) 1 230 240 12.4 12.6 I 1 % in. GFP 34.0 (864) 24 (610]1 41 (19) 1 00
PF201532004'5 20(1.3) 1.50(1.11) 3 200 208 7.1 7.2 9 1ll¿in.GFP 30.7(780) 20(508) 35(16) 300
PF30051 1
PF30053200 30 (1.9) 0.50 (0.37) 3 200 208 3.6 3.6 3 1 /¿ in. GFP 21.3 (541) 20 (508) 25 (11) 300
PF30051 2
PF300712
PF30501 2 5' 6' 7' B 30 (1 .9) 5.00 (3.73) 1 230 240 25.6 25.8 23 1 /¿ in, SS 66.5 (1 689) 53 (1 346) 82 ßn 1 00
30 (1 .9) 0.50 (0.34 1 230 240 6.2 6.2 3 1 % in. GFP 21 .3 (541) 20 (508) 25 (11) 300
PF3050325,6,8 30(1.9) 5.00(3.73) 3 230 240 16.6 16.6 23 1ll¿in.SS 60.8(1544) 48(1219) 66(30) 300
PF30503200 5, 6, B 30 (1 .9) 5.00 (3.73) 3 200 208 18.7 18.7 23 1 /¿ in. SS 60.8 (1 544) 48 (1 21 9) 66 (30) 300
30 (1 .9) 0.75 (0.56) 1 230 240 8.5 8.5 5 1 /¿ in. GFP 24.8 (630) 21 (533) 29 (13) 300
PF30073200 30 (1.9) 0.75 (0.56) 3 200 208 4.9 4.9 5 1 lqin.GFP 24.6 (625) 21 (533) 30 (14) 300
PF3010124 30(1.9) 1.00(0.75) 1 230 240 10.4 10.4 6 1/¿in.GFP 27.0(686) 22(559) 32(15) 100
PF301032004 30(1,9) 1.00(0.75) 3 200 208 5.8 5.8 6 11l+in.GFP 26.4(671) 22(559) 33(15) 300
PF301512 4,5 30 (1.9) 1.50 (1.11) 1 230 240 12.6 12.6 B 1 % in. GFP 32.8 (833) 24 (610) 40 (18) 100
PF30153200 4,5 30 (1.9) 1.50 (1.11) 3 200 208 6.9 6.9 8 1 l/¿ in. GFP 2s.B Vín 22 þ59) 34 (15) 300
PF301534 4,5 30 (1.9) 1.50 (1.11) 3 460 480 2.8 2.8 8 1 14 in, GFP 29.5 (685) 22(559) 34 (15) 300
PF3020125,6'7 30(1.9) 2.00(1.49) 1 230 240 11.0 11.0 10 1/qin,SS 35.5(902) 26(660) 44Q0) 100
PF3020320016 30(1.9) 2.00(1.49) 3 200 208 9,3 9.3 10 1/¿in.SS 34.0(864) 24(610) 41(19) 300
PF303012 5,6,7,8 30 (1.9) 3.00 (2.23) 1 230 240 16.8 16.8 14 1 /¿ in. SS 44.5 (1130) 33 (838) 54(24) 100
PF3030325,6,8 30(1.9) 3.00(2.23) 3 230 240 10.0 10.1 14 1/¿in.SS 44.3(1125) 27(686) 52(24) 300
PF50051 1 50 (3.2) 0.50 (0.34 1 1 15 120 12.1 12j 2 2 in, SS 20.3 (516) 24 (610) 27 (12) 300
PF50051 2 50 (3.2) 0.50 (0.34 1 230 240 6.2 6.2 2 2 in. SS 20.3 (516) 24 (610) 27 (12) 300
PF500532 50 (3,2) 0.50 (0.37) 3 230 240 3.0 3.0 2 2 in. SS 20.3 (516) 24 (610) 28 (13) 300
PF50053200 50 (3,2) 0.50 (0.37) 3 200 208 3.7 3.7 2 2 in. SS 20.3 (516) 24 (61 0) 28 (13) 300
50 (3.2) 0.50 (0.34 3 460 480 1 .5 1 .5 2 2 in. SS 20.3 (516) 24 (610) 28 (1 3) 300PF500534
PF500712 50 (3.2) 0.75 (0.56) 1 230 240 8.5 8.5 3 2 in. SS 23.7 (602) 25 (635) 31 (14) 300
PF500732 50 (3.2) 0.75 (0.56) 3 230 240 3.9 3.9 3 2 in. SS 23.7 (602) 25 (635) 32 (15) 300
PF50073200 50 (3.2) 0.75 (0.56) 3 200 208 4.9 4.9 3 2 in. SS 23.1 (587) 26 (660) 32 (15) 300
I'lTD-PU-PF-1
Bev.2.2, @ 09/14
Page 2 of 6
orenco Systemso |nc.,814 Ainrvay Ave., Sutherlin,0R 9747S USÀ . 800-348-9843 o 54f-459-4449 . www.orenco.com
Specifications, 60 Hz (continued)
Ë= $Ëe
Pump Model
E
ELEt
.9 ÈlEq
o)
Et¡
.E¡ê
(g
o
ßtt
66zt
otts.EE
6-v
,Ê,
.J
.9o
=
o
o
Ëee
=Ë.EY
=.=
Eg
E
ED
6tJ
d)-.ä=
s.bËF
8eäË
e6tg
Ê
IAÉt
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=
=c!E
=Ðø¡
EH
PF500734 50 (3.2) 0.75 (0.56) 3 460 480 1 .B 1 .8 3 2 in. SS 34.8 (884) 25 (635) 31 (14) 300
PF501 01 2 50 (3.2) 1 .00 (0.75) 1 230 240 1 0.1 10.1 4 2 in. SS 27.0 (686) 26 (660)35 (16) 1oo
PF50103200 50 (3.2) 1 .00 (0.75) 3 200 208 5.7 5.7 4 2 in. SS 26.4 (671) 26 (660) 39 (18) 300
50 (3.2) 1 .00 (0,75) 3 460 480 2.2 2.2 4 2 in. SS 26.4 (671) 26 (660) 39 (18) 300PF501 034
PF5015124 50 (3.2) 1 ,50 (1 .1 1)1 230 240 12.5 12.6 5 2 in. SS 32.5 (826) 30 (/62) 41 (19) 100
PF501532004 50(3.2) 1.50(1.11) 3 200 208 7.0 7.0 5 2in.SS 293(744) 26(660) 35(16) 300
PFs03012 4,5,7,8 50 (3.2) 3.00 (2.23) 1 230 240 17.7 17.7 I 2 in. SS 43.0 (1092) 37 (940) 55 (25) 100
PF50303200 4'r B 50 (3.2) 3.00 (2.23) 3 200 208 1 3.1 1 3.1 I 2 in. SS 43.4 (1102) 30 (762) 55 (25) 300
PF503034 4'5,8 50 (3.2) 3.00 (2.23) 3 460 480 5.3 5.3 I 2 in. SS 40.0 (1016) 31 (/8n 55 (25) 3oo
PF50501 2 5'6,7,8 50 (3.2) 5.00 (3.73) 1 230 240 26.2 26.4 1 3 2 in. SS 65.4 (1 661) 55 (1 394 64 (29]j 300
PF505032 5,6,7,8 50 5.00 (3.73) 3 230 240 16.5 16.5 13 2 in. SS 59.3 (1506) 49 (1245) 64 (29) 300
PF751012 75 Ø.n 1 .00 (0.75) 1 230 240 9.9 10.0 3 2 in, SS 27.0 (686) 27 (686) 34 (15) 100
PF751512 75 Ø.n 1.50 (1.11) 1 230 240 12.1 12.3 4 2 in. SS 33,4 (848) 30 ø62)44 (20) 100
Specifications, 50 Hz
Pump Model
PF1 00552 10 0.50 (0.34 1 220 230 3,9 4.1 6 1 /¿ in. GFP 23.0 (584) 17 (4321 26 (12) 300
PF100752 4,5 10 (0.6) 0.75 (0,56) 1 220 230 6.2 6.2 9 1 /¿ in. GFP 26.8 (658) 17 (432) 30 (14) 300
PF1 01 552 r 6 1 0 (0.6) 1 .50 (1 ,1 1)1 220 230 10.5 11 .4 18 1 /+ in. SS 39.5 (1003) 22 (559) 46 Q1) 300
PF300552 30 (1 .9) 0.50 (0,37) 1 220 230 4.1 4.1 4 1 lq in. GFP 22.5 (572) 19 (¿83) 26 (12) 300
PF300752 30 (1 .9) 0.75 (0.56) 1 220 230 6.1 6.1 5 1 /¿ in. GFP 24.8 (630) 19 (483) 29 (13) 300
PF301052 30(1.9) 1.00(0.75) 1 220 230 7.4 7.4 7 1ltin.GFP 28.4(721) 20(508) 32(15) 100
40 (18) 100PF301 552 4,5 30 (1 .9) 1 .50 (1 .1 1) 1 220 230 9.3 9,3 8 1 1z¿ in. GFP 35.4 (899) 24 (61 0)
PF500552 50 (3.2) 0.50 (0.34 1 220 230 4.0 4.0 2 2 in. SS 20.3 (516) 25 (635) 29 (13) 300
PF500752 50 (3.2) 0.75 (0.56) 1 220 230 6.3 6.4 3 2 in. SS 23.7 (602) 25 (635) 31 (14) 300
PF501 052 50 (3.2) 1.00 (0,75)1 220 230 7 .3 7 .4 4 2 in. SS 27.0 (686) 26 (660) 35 (16) 100
PF501552 50 (3.2) 1 .50 (1 ,1 1) 1 220 230 9.1 9.1 5 2 in. SS 32.5 (826) 30 (762) 42 (19) 100
PF751052 75 1 .00 (0.75) 1 220 230 7 .3 7 .3 4 2 in. SS 30.0 (762) 27 (686) 34 (15) 100
Distribut1r about fittin$ lo connect hose and valve assenbl¡es to metric-sized piping.
qrenco for morc ¡nfornation.
3 We¡ght includes ca¡Ion and 10-ft (3-n) cord.
4 High-pressure discharge assembly rcqu¡red.
5 Do n1t use camlock opti1n (q 0n d¡scharge assembly.
6 Custom discharge assembly requ¡red Íor thæe punps. Contact 0renco.
7 Capac¡tor pack (sold separately 0r ¡nstalled in a custon c1ntrol panel) requhed for thß punp. Contact orenco.
8 Tlrque llcks are available for all punps, and are suppl¡ed w¡th 3-hp and 5-hp punps.
IITD-PU.PF.1
Rev. 2,2, O 09/14
Page 3 of 6
0renco Systemso Inc. ,8f4 Àiniray Ave., Sutherlin, 0B 97479 USA . 800-348-984Íl . 541-459-4¡149 . www.orenco,com
Materials of Gonstruction
Discharge Glass{illed polypropylene or stainless steel
Dischargebearing Engineeredthermoplastic(PEEI()
Diffusers Glass{illed PPO (Noryl GFN3)
lmpellers Celcon@ acetal copolymer on 10-, 20, and 30-gpm models; 50-gpm impellers are Noryl GFN3
lntake screen Polypropylene
Suctionconnection Stainlesssteel
Drive shaft 7/16 inch hexagonal stainless steel, 300 series
Coupling Sintered stainless steel, 300 series
Shell Stainless steel, 300 series
Motor Franklin motor exterior constructed of stainless steel, Motor filled with deionized water and propylene glycol for constant lubrication. Hermetically
sealed motor housing ensures moisture{ree windings. All thrust absorbed by Kingsbury-type thrust bearing. Rated for continuous duty. Single-
phase motors and 200 and 230 V 3-phase motors equipped with surge anestors for added security. Single-phase motors through 1.5 hp
(1.11 kW have built-in thermal overload protection,which trips aT 203-221' F (95-1 05' C).
Using a Pump Curue
A pump curre helps you determine the best pump for your system. Pump curves show the relationship between flow (gpm or Usec) and pressure
(total dynamic head, orTDH), providing a graphical representation of a pump's optimal performance range. Pumps perform best at their nominal
flow rate - the value, measured in gpm, expressed by the first two numerals in an 0renco pump nomenclature. The graphs in this section show
optimal pump operation ranges with a solid line. Flow flow rates outside of these ranges are shown with a dashed line. For the most accurate
pump specification, use 0renco's PumpSelect" software.
Pump Gurves, 60 Hz Models
PF15 Sedes,60 Hz,0.3
1ô0
140
120
100
80
60
40
20
o(l¡
sa
È(!
(¡¡+
q¡
(E
\È
(È
.o
800
700
(¡)e.g 600
ÈF ¡oo
ÈI ¿oos(¡'=
F 3oo
\f zooG
.è
100
02468101214
FIow in gallons per minute (gpn)
36912151821
Flow in gallons per ninute (gpm)
16 0 24
PF10 Series,60 Hz,0.5 - 2.0 hp
PFl010
l.-
PFr005-FC
wl1h" llow
controller
¡'lfD-PU-PF-l
Rev.2.2, @ 09/1¡l
Page 4 of 6
0renco Systemso |nc.,814 A¡rway Ave., Sutherlin,0R 97479 USA . 800-348-9843 . 541-459-4449 . wwworenco,com
Orenco
TPF20 Sedes,6{l Hz,0.5 - 1.5 hpL
PF20t0
60 Hz Models (continued)
5101520253035
Flow in gallons per minute (gpm)
51015202530354045
Flow in gallons per minute (gpm)
00
0 0
900
800
(¡¡
-0¡h 700
Èu*
E 500
t¡¡€c¡ 400
Gts 300È
s 200.o
100
400
350
(¡¡ec 300
Èf zso
È
ëro(¡
E rbo
\l' roo(È
.a
50
100
s0
(¡¡e80
s70aS. 60È(E
e50
CI'È 40
EÈ30
Son.G LU
10
450
400
(¡¡* sso
I soos
È 250(E
crf, zoo
E tso\ÈÈ roo
.a
50
40
PF50 Series,60 H2,0.5 - 5.0 hp
tlj Ll
PF5015
Ë
0102030405060708090
Flow in gallons per minute (gpn)
10 20 30 40 50 60 70 80
Flow in gallons per ninute (gpn)
0 90 100
PFil(l Series,60 Hz,0.5 - 5.0 hp'ri
r a
5 a\
s
PF75 Series,60 Hz, 1.0 - 1.5 hp
Orenco Systems@ lnc, ,814 Airway Ave,, Sutherlin, 0R 97473 USA . 800-348-9tt¡lil ¡ 541-459-¡1449 . urww,orenco,com NTD-PU-PF-l
ReY.2.2, O 09/14
Page 5 of 6
Orenco
PF10 Series,50 H2,0.37 - 1.11
lr YJ
PFIllOS.FG
w/6mmflow
controller
Pump Gurves,50 Hz Models
Flow in gallons per minute (gpn), nominal16 32 43 63 7.9 9.5 il 13
FIow in gallons per minute63 13 19
(gpn), nominalug2
180
45
120
G
a
oe
=a
È
.Èq¡Ê
(J
(È
È
(È
Ê
262
197
13r
eql
q)
È.s 80
s
ìoo0)s(¡
E¿o
È
(È
Ê
20
525 -s
¿ss SÈ
ssn $
sze Ê
Ê
zoz Eq¡Ê
rsz'!
E
rsr à
(È
.è66h
I
eql1
qr
'=tÊat.r
!Ga¡€(l
G\È
(E
-è
60
40
20
00
80
60
40
20
0
40
e
Sas
È
's so
at. zs!G
Q¡+zo
gr'È
Srs\È
Sro.è
000.r
Flow in gallons per minute7.9 16 24 n 40
02 03 0.4 05 05 0l
Flow in liters per second (Usec)
0.8 0.9 L400.4 0.8 1.2 r$ L0
Flow in literc per second (Usec)
0.5 1.0 1.5 z0 z5 3.0 3.5 4,0 4.5
FIow in gallons per minute (gpn), noninal1019n3848t1677686
0.6 1.2 1.8 24 3.0 3.6 4.2 4.8 5.4 6.0
FIow in |iters per second (Usec)
þpn)'
48
nominal56 63
r5
98
82
ô6
49
3:l
tô
e
Gt
QJ
Êa
ÈGq¡Ê(l
G\È
G
Ê
G
o
a¡)q¡
s
ÈGoÈ(¡
(g\È'
(È
Ê
30
27
24
21
r8
15
12
89-(E
7es
og Ë'ot
a¿g5'È(È
ggÊ
(l
s0F\zoì(È
Ê5
Flow in liters per second (Usec)
PRfl Series, 50 Hz, 0.37 - 1.11 kW
ã
É :-
\{
0.37 - t.t1Pr5050
E
\.
PÐ5 Series,5ll H2,0.75 kW
NTD-PU-PFI
Bev.2.2, @ 09/14
Page 6 of 6
orenco Systemso lnc,,814 Airuay Ave., Sutherlin,0B 97479 USA . 800-348-9843 . 541-459-4449 . wwworenco,com
This article may describe design criteria that was in effect at the time the article was written. FOR CURRENT DESIGN
CRITERIA, call Orenco Systems, Inc. at I-800-348-9843.
0renco Automatic D¡stributing
Valve Assemblies
ã.-,ãtG
For Wastewater Effluent Systems
Introduction
Orenco's automatic distributing valve assemblies, pressurized with small high-head effluent
pumps, are useful for distributing effluent to multiple zones. These zones can be segments
of sand filter manifolds, drainfields, or other effluent distribution systems. Distributing
valve assemblies can substantially simpliS' the design and installation of a distribution sys-
tem and reduce installation costs. This is particularly true where a distributing valve assem-
bly is used instead of multiple pumps and/or electrically operated valves. Additionally, a
reduction in long term operation and maintenance costs is realized due to a reduced size
and/or number of pumps. More even distribution can be achieved on sloping sites by zoning
laterals at equal elevations. This eliminates drainback to lower lines and the unequal distrib-
ution of effluent that occurs at the beginning of a cycle.
Valve Operation
The valve itself has only a few moving parts, requires no electricity, and alternates automati-
cally each cycle. Refer to Figure 1 for the following valve operation description. The flow
of the incoming effluent forces the rubber flap disk O to seat against the valve bottom Ø.
The opening @ in the rubber flap disk aligns with an opening in the valve bottom to allow
flow to only one valve outlet. The stem @ houses a stainless steel spring which pushes the
rubber flap disk away from the valve bottom after the flow of effluent stops. The stem acts
as a cam follower and rotates the rubber flap disk as the stem is raised and lowered through
the cam @. The force from the flow of effluent pushes the stem down through the cam and
the stainless steel spring pushes the stem back up through the cam when the flow of effluent
stops. Each linear motion of the stem allows the rubber flap disk to rotate half the distance
necessary to reach the next outlet. When there is no flow, the rubber flap disk is in the "up"
position and is not seated against the valve bottom.
Figure l:
6000 Series Valve
Orenco Systems'
I ncorporated
1-800-348-9843
NTP.VA-1
Rev.12, @ 11^B
orenco Systemso, lns.
Page I of 6
o
lnlet
----->
o
o
ø
o
I
L
,l,
I outl"t*
*
Figure 2:
0renco Distributing Valve Assembly (6000 Series Valvel
The Distributing Valve Assembly
The Orenco Automatic Distributing Valve Assembly combines the distributing valve itself and sever-
al other components to give a complete preassembled unit that is easy to install, monitor, and main-
tain. Figure 2 shows a complete assembly. Because distributing valves with several outlets can be
diffrcult to line up and glue together in the field, the discharge lines in the assemblies are glued in
place at Orenco. The unions (1) allow removal and maintenance of the valve. The clear PVC pipe
sections (2) give a visual check of which discharge line is being pressurized. The inlet ball valve (3)
allows a quick, simple method to test for proper valve cycling. The ball valve also stops the flow of
effluent in case the pump is activated unexpectedly during maintenance or inspection. Check valves
may be necessary on the discharge lines. Use of check valves is discussed in the valve positioning
section.
Valve Assembly Hydraulics
Liquid flowing through the valve assembly must pass through fairly small openings and make several
changes in direction. Because of this, headlosses through the valve assembly are fairly high. Table 1
gives the headloss equations for several different assemblies and Figure 3 shows the graphical repre-
sentations of these equations. Orenco recommends that high-head turbine pumps be used to pressur-
ize the valve assemblies to ensure enough head is available for proper system operation. High-head
turbine pumps are also recommended because the use of a distributing valve usually requires more
frequent pump cycling. The high-head turbine pumps are designed for high cycling systems and will
outlast conventional effluent pumps by a factor of 10 or more in a high cycling mode. Furthermore,
the high-head turbine pump intake is 12 inches or more above the bottom of the pump and tends to
prevent any settled solids from being pumped into the distribution valve and obstructing its opera-
tion. A minimum flow rate through the distributing valve is required to ensure proper seating of the
rubber flap disk. Minimum flow rates for the various models are given in Table 1.
NTP-VA-I
Rev.12, @ 11/13
Orenco Systems', lnc.
Page 2 of 6
Ihble 1. Automatic Dishibuting Valve Assembly Headloss Equations
Model Series Equation OperatingRange (gpm)
v44ooA HL:0.085 x q145 lo - 40
v46ooA HL: 0.085 x q1.58 ro - 2s
v6400A Hl:0.004sxd+3.5x(l-.4'09 1s-70
v6600A Hl:0.0049*d+5.5x(r -"a.19 ß-70
35
30
25
20
15
10
5
0
rÈ
.>
-o
E
o)
U'
@
cT)lI-cF
.t).l)oJı(!o
:E 051015202530 35 40
Flow (gpm)
45 50 55 60 65 70
Figure 3:
Automatic distributing valve assembly headloss curves
The Pumping System
Although the distributing valve was designed for the irrigation industry, it has started to gain fairly
wide acceptance in the effluent pumping industry. However, because of the mechanical movements
of the valve, it is necessary to take steps to prevent solids from reaching the distributing valve that
may impede the operation of the valve. Orenco Biotube@ Pump Vaults - when properly sized and
installed - provide the necessary protection to prevent valve malfunction. The Biotube@ pump vault
accepts eflluent only from the clear zone between a tank's scum and sludge layers and then filters
this effluent through a very large surface area screen cartridge. Without this protection in effluent
systems, the valve has very little chance of reliable long-term operation.
fìtTP-vA-l
Rsv.12, @ 11/0û
0renco Systemso, lnc,
Page 3 ol 6
v66004
-/v64004
v46004 /v44004
l-a'Jt I
-/¿t€t -4
,¿4 r4 '-.ç
dt€
,¿4
Valve Positioning
The physical position of the valve in relation to the pump and the discharge point is very important
for proper valve operation. The most reliable operation occurs when the valve is placed at the high
point in the system and as close to the pump as possible. The transport line between the pump and
valve should be kept full if possible. If the line is empty at the beginning of each cycle, pockets of
air during filling can cause random rotation of the valve. The valve is particularly vulnerable to this
erratic rotation with empty lines that are long and not laid at a constant grade. An ideal valve loca-
tion is shown in Figure 4.
If the final discharge point is more than about 2 feet above the valve and the system does not drain
back into the dosing tank, check valves should be installed on the lines immediately following the
valve and a pressure release hole or line should be installed just prior to the valve. This pressure
release hole or line can go into a return line to the dosing tank or to a "minidrainfield" near the valve
In order for the valve to rotate reliably, no more than about 2 feet of head should remain against the
valve to allow the rubber flap disk to return to its up position. In many cases, it may take from one
minute to several minutes for the pressure in the valve to be lowered enough for proper rotation to
occur. Special care should be t¿ken when installing systems controlled by programmable timers to
ensure cycling does not occur too rapidly. Figure 5 illustrates a valve assembly using check valves.
Pumping downhill to the valve should be avoided unless the transport line is very short and the ele-
vation between the discharge line out of the tank and the valve is less than about 2 feet. If the valve
is located many feet below the dosing tank, random cycling may occur while the transport line drains
through the valve at the end of the cycle. A pressure sustaining valve located just before the distrib-
uting valve may overcome this problem in some instances.
Oistribut¡ng Valve Assembly
Discharge
Transporl Une
Dos¡ng Tank
Figure 4:
ldeal valve location
iITP.VA-1
Rev.12, @ l1llB
Orenco Syfemso, lnc.
Page 4 ol 6
System Startup
Refer to the Hydrotek Valve booklet that is provided with the distributing valve assembly for the
sequencing of the valve outlets. The transport line should always be flushed with clean water before
installing the valve. Any sand, glavel, or other foreign objects that may have been in the pipe during
installation can easily become lodged in the distributing valve, causing malfunction.
With the pump running, alternately close and open the ball valve on the distributing valve assembly
to check proper rotation of the valve. (Note: If check valves are used on the lines after the distribut-
ing valve, the pump may need to be turned on and off to allow the pressure to be released from the
valve.) If visual operation of which zone is operating is not possible, watch the clear pipe on each
line for indication of which zone is operating.
D¡scharge Laterals
Pressure Releaæ
Line if h>2!0"
Valves ¡f h>2LO'
Valve Assembly
Transport Line
Dosing Tank
Figure 5:
Valve assembly below final discharge point
Maintenance
Annually check for proper operation by following procedures listed in the Hydrotek Valve booklet
and system startup procedures listed above.
Troubleshooting
1. PROBLEM: Valve does not change or cycle to next zone or outlet
CAUSE:The stem and disk assembly is not rotating when water flow is turned off and then
back on.
SOLUTION 1
SOLUTION 2
Ensure that there is no debris inside the cam. Clean and carefully reinstall the cam.
If fewer than the maximum number of outlets are being used, check the installation
of the cam. Ensure that the stem and disk assembly is not being held down by an
improperly installed cam. Refer to the cam replacement instructions.
IUTP.VA-T
Rev. lZ @ llÍF
0renco Systemso, lnc.
Pa0e 5 of 6
SOLUTION 3
SOLUTION 4:
SOLUTION 5:
SOLUTION 6:
Remove the valve top and check for proper movement of stem and disk assembly.
Check for and remove any debris or foreign objects that may jam or retard the
movement of the disk.
Check for freedom of movement of stem and disk assembly up and down over the
center pin in bottom of valve. Scale deposits may build up on the pin and hold stem
and disk assembly down. Clean pin and again check for freedom of movement.
Be sure that all operating outlets are not capped and that the flow to operating zones
is not restricted in any manner. This would cause pressure to build up in the valve
and lock the stem and disk assembly in the down position.
The backflow of water from uphill lines may be preventing the valve from cycling
properly. This can happen when the valve is placed too far below an elevated line.
If the valve cannot be placed close to the high point of the system, a check valve
should be installed near the valve in the outlet line that runs uphill from the valve
and a drain line inst¿lled just prior to the valve to relieve the pressure.
2. PROBLEM: Water comes out of all the valve outlets
CAUSE Stem and disk assembly not seating properly on valve outlet.
SOLUTION 1: Check for sufficient water flow. A minimum flow rate is required to properly seat
the disk as shown in Table 1.
SOLUTION 2: Remove the valve top and check the inside walls to ensure that nothing is interfering
with the up and down movement of the stem and disk assembly inside the valve.
SOLUTION 3: Make sure that the operating outlets are not capped and that the flow to the operat-
ing zones are not restricted in any mannsr.
3. PROBLEM: Valve skips outlets or zones
CAUSE:Pumping into an empty transport line - especially downhill - may cause the valve
to skip outlets from pockets of air allowing the rubber flap disk to raise during a
cycle.
SOLUTION 1: Keep the transport line full.
SOLUTION 2: If the line must remain empty between cycles, use a larger diameter transport line
laid at a constant grade to prevent air pockets from forming.
CAUSE: The stem and disk assembly is being advanced past the desired outlet.
SOLUTION 1: Ensure that the correct cam for the desired number of zones is installed and that the
outlet lines are installed to the correct outlet ports of the valve as indicated by the
zone numbers on the top of the cam.
I\ITP-VAI
Bsv.12, @ 11/ül
0renco Sylems', lnc,
Page 6 ol 6
Distributing Valves Submittal
Data Sheet
*-rth.t
€
Orenco $¡nrlerns"
lnccrporâfed
t-sm-348-98¡t3
Applications
Automatic Distributing Valve Assemblies are used to pressurize
multlple zone distribution systems including textile filters, sand
filters and drainfields.
coupl¡ng
d¡str¡but¡ng valve
union
cloar pipe
Top View
ball valve
elbow
Side View
elbows
Bottom View
General
Orenco's Automatic Distributing Valve Assemblies are
mechanically operated and sequentially red¡rect the
pump's flow to multiple zones or cells in a distribution
field. Valve actuation is accomplished by a combination
of pressure and flow. Automatic Distributing Valve
Assemblies allow the use of smaller horsepower pumps
on large sand filters and drainfields. For example, a large
community drainfield requiring 300 gpm can use a six-line
Valve Assembly to reduce the pump flow rate requirement
to only 50 gpm.
0renco only warrants Automatic Distributing Valves when
used in conjunction with High-Head Effluent Pumps with
Biotube' Pump Vaults to provide pressure and flow
requirements, and to prevent debris from fouling valve
operation, An inlet ball valve and a section of clear pipe
and union for each outlet are provided for a complete
assembly that is easy to maintain and monitor, ldeal
valve location is at the high point in the system. Refer to
Automatic Distributing Valve Assemblies (NTP-VA-1) for
more information.
Standard Models
v4402A, V4403A, V44044, V46054, V46064, V64024, V64034,
v6404A, V6605A, V66064.
Nomenclature
!EA
T*;:ï'";
Specifications
senes:
44 : 4400 senes (2-4 outlets)
46 : 4600 series(5-6outlets)
64 : 6400 series(2-4outiets)
66 : 6600 series (5-6 outlets)
Distributing valve
Materials of Gonsûr¡ction
AllFittings:
Unions:
BallValve:
Clear Pipe:
V4XXX D¡stributing Valves:
V6XXX Distributing Valves:
Sch.40 PVC perASTM specification
Sch.80 PVC pøASTM specification
Sch.40 PVC perASTM specification
Sch.40 PVC perASTM specification
High-strength norrconosive ABS polymø and stainless steel
High-streryth norrconosive ABS polymer, stainless steel, and die cast metal
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Rev.3.0, @ {n3
Page I ol 2
D istri buting Valves (continuedl
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Flow(gpm)
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Model lnlet Size (in.l Oúlets Size (in.l Flow range Max Head (ft.) Min. Enclosurc
VMOZA 1.25 1.25 10-40 170 v81217
v44034 1.25 1.25 10-40 't70 v81217
v44044 1,25 't.25 10-40 170 v81217
v46054 1.25 1.25 10 -25 170 RR2418
v46064 1.25 1.25 10 -25 170 RR2418
v8t02A 1.5 1.5 15 - 100 345 RR2418
v&t034 1,5 1.5 15 - 100 345 RR2418
v64044 1,5 1.5 '15 - 100 345 RR2418
v66054 1,5 1.5 't5 - 100 345 RR2418
v66064 1.5 1.5 15 - 100 345 RR2418
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Rev.3.0, @ 4Il3
Page2ol2
DRAWN BY: ERPIJATEI /2/24,|NoNFScar FSHÊET IoFlACAD No. GFoùÀr xsFcr DWGREVAGEOMAT LEACHING SYSTEMCross SectionGeomatrix Systems, LLC., Old Saybrook, CT860-510-0730Finished Grade1Recommended Cover Depth is 12",6" Minimum1" or 1f" Sch. 40 PVC Distribution pipeSpecified Orifice HolesFabGeoGuard Orifice ShieldNative Soil and/orGeoMat CoreSpecified Fill2"-r-1ilri.":I6" 12" & 39'IGEOMAT LEACHING SYSTEMCross Section- Not to Scale -Copyr¡ght 201 0 GEOMATRIX SYSTEMS, LLCmanufactured under one or more ofthefollowing US patents; 7,374,670; 7,165,390.Other uS andNOTE: Lateral spac¡ng as required
GIÛÞ{ATRIX ry
QuickSnap'" Orifice Shield lnstructions
These instructions are for use with GeoMat'" Leaching System
Put a 2 x 6 that is at least as long as the pipe
on the ground or saw horses for use as a
level surface.
Place the pipe on the 2 x 6 with one shield
at each end of the pipe to secure it from
rotation during orifice and shield
orientation marking, be sure to remove
these shields when pipe is complete.
Measure and mark position of orifice on the
top of the pipe, per design specification.
Snap a shield on directly beneath each
orifice mark.
Mark the edge of each shield on at least one
side, as shown, and mark the exact top of
the pipe. This marking will allow the shield
to be properly oriented.
Drill pipe per design specification.
Be sure to clean shavings/debris out of hole
Rotate shields 180 degrees to cover orifice.
The edge of the shield should be aligned
with the edge mark as shown. The shield
should be rotated such that the flat surface
and the top orientation mark are both in the
12 O'clock position. This should result in
the shield positioned directly over the
orifice.
Generously apply Premier brand One-Step
Pipe Cement Multi-Purpose Clear, or equal,
to the surfaces where the shield and pipe
meet. The use of a foam brush will help with
this; the round applicator is not effective.
Let glue sufficiently dry before rough
handling and/or sliding into GeoMat.
Note the obove steps are intended to prevent shields
from moving oround during insertion into GeoMot;
not for rough handling. When better adhesion is
necessory, for transportation, etc. use PVC primer
and solvent cement on oll surfaces where the pipe
ond shield touch and then snop on shield in correct
location.
Questions? Call Geomatrix Systems at 860-5L0-0730
QuickSnap and GeoMat are trademarks of Geomatr¡x Systems, LLC Old Saybrook, CT - QSI NST 5/19
Item#
SEK-Orenco@ Flushing Assemblies
Flushino Assemblies
Orenco@ flushing assemblies provide easy
access for lateral maintenance. Flushing
assembly kits include a PVC sweep with ball
valve and a polyethylene valve box enclosure.
Orenco@ flushing assemblies are available
following sizes:. !" diameter. t.25" diameter. L.5" diameter. 2" diameter
in the
Valve Boxes
Orenco@ valve boxes are used to provide access
to flushing assemblies. Constructed of
polyethylene.
Valve Box, 7-in. diameter round enclosure
Note: Kits include VB7 valve box enclosure.
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UAIIHY
PRECA$Itnr.
Water &
Wastewater. Systems. Products. Service
(7ts) 3ss-6764 fi:j:ffiïitY Road 317
Fax: (719) 395-3727 Buena Vista' co 81211
Website: http ://va I leyprecast.com/
Email : frontdesk@va I leyprecast. com