Micro TFC-35 Manuale

IMPORTANT NOTICES:

This reverse osmosis system contains replaceable treatment components critical for effective performance. It is the user's

responsibility to, and the manufacturer strongly recommends that the user, periodically test the product water to verify the

system is performing satisfactorily. See the test kit for sampling instructions.

This system conforms to NSF/ANSI Standard 58 for pentavalent arsenic reduction. See the Performance Data Sheet and

Arsenic Facts section for an explanation of reduction performance.

DO NOT USE WITH WATER THAT IS MICROBIOLOGICALLY UNSAFE OR OF UNKNOWN QUALITY,

WITHOUT ADEQUATE DISINFECTION BEFORE OR AFTER THE SYSTEM. Systems certied for cyst reduction

may be used on disinfected water that may contain lterable cysts.

REVERSE OSMOSIS

DRINKING WATER SYSTEM

MODELS TFC-35 AND

TFC-35M (WITH OPTIONAL MONITOR)

INSTALLATION, OPERATION & SERVICE MANUAL

Tested and Certied by NSF International against

NSF/ANSI Standard 58 for the reduction of the

claims specied on the Performance Data Sheet.

8-197

3

CAUTION:

The Centers for Disease Control and Prevention (CDC) and the Environmental Protection Agency (EPA) have issued guidance to people with severely

weakened immune systems who may want to take extra precautions to reduce the risk of infection with Cryptosporidium from drinking water. This guidance

pertains to people with HIV/AIDS, patients receiving treatment for cancer, recipients of organ or bone marrow transplants, transplant patients taking

immunosuppressive drugs, and persons who have congenital immunodeciencies.

The EPA has stated that they do not know the signicance of drinking water compared to other possible sources of Cryptosporidium to determine how most

people become infected. The CDC-EPA guidance suggests that immunosuppressed individuals discuss their risks with their health care provider.

This drinking water system is tested and Certied by NSF International to NSF/ANSI Standard 58 for cyst reduction. It meets the NSF/ANSI standard of

reducing at least 99.95%* of cysts (including Cryptosporidium), however, because this is not 100%, immunosuppressed individuals should take the extra

precaution of boiling their drinking water. According to the CDC-EPA, bringing water to a rolling boil for one minute is the most certain approach for killing

Cryptosporidium.

All individuals should take adequate precautions when changing the lter cartridges, including wearing protective gloves, to avoid direct contact with the

exhausted cartridges.

*For complete specications, refer to the Performance Data Sheet.

TABLE OF CONTENTS

Page

SECTION I. INTRODUCTION ........................................................................................... 3

SECTION II. SPECIFICATIONS .......................................................................................... 5

SECTION III. PREPARATION ............................................................................................... 6

A. Major System Components ....................................................................... 6

B. Tools Recommended for Installation......................................................... 6

C. Site Selection For Major System Components ......................................... 6

SECTION IV. INSTALLATION STEPS ................................................................................. 7

A. Faucet Installation ..................................................................................... 7

B. Feed Water Saddle Valve Installation ....................................................... 8

C. Drain Clamp Installation........................................................................... 9

D. R.O. Manifold Assembly Installation...................................................... 10

E. Position the Drinking Water Holding Tank

and Make the Final Hose Connections...................................................10

F. Start Up ................................................................................................... 11

SECTION V. OPERATION AND MAINTENTANCE ...................................................... 11

A. Normal Operation ................................................................................... 11

B. Changing Filters....................................................................................... 12

SECTION VI. TECHNICAL DATA ..................................................................................... 13

A. Water Quality .......................................................................................... 13

B. Water Quantity........................................................................................ 13

C. Net Pressure Differential.......................................................................... 13

D. Water Production Rate Chart ................................................................. 15

SECTION VII. TROUBLE SHOOTING GUIDE .................................................................. 16

EXPLODED VIEW AND PARTS LIST.............................................................................................. 18

3

SECTION I. INTRODUCTION

Your new Reverse Osmosis (R.O.) Drinking Water

System uses a combination of ltration technologies

to reduce unwanted contaminants in a water supply.

The following steps combine to give you the best in

clear sparkling drinking water:

MECHANICAL FILTRATION/ACTIVATED

CARBON–The sediment prelter will remove

the larger particles such as silt, rust and scale. Its

5 micron (equal to 0.0002 inch) nominal rating

helps to give maximum life to the R.O. Membrane.

Activated carbon particles contain a vast network

of pores. The tremendous surface area of these

pores (typically 800–1200 square meters per gram

of carbon) gives the carbon very good adsorptive

sites for chlorine as well as other substances that

contribute to taste and odors.

REVERSE OSMOSIS MEMBRANE–The R.O.

Membrane is the heart of the ltration system.

It is designed to reduce the dissolved mineral

content of the water. Minerals picked up in the

environment by the water are measured as Total

Dissolved Solids (TDS). In the Reverse Osmosis

process, dissolved minerals are separated from

the incoming water (Feed Water) to produce the

product water (the Permeate). The excess minerals

are rinsed to drain (the Reject Water).

The membrane is specially constructed, fully

aromatic polyamide lm and is classied as a Thin

Film Composite (T.F.C.).

The spiral wound construction of the R.O.

Membrane provides maximum surface area for

water production and is less susceptible to fouling

by particulate matter, turbidity and colloidal

materials.

ACTIVATED CARBON POST FILTER–The

product water from the Holding Tank passes

through the Activated Carbon Post Filter on the

way to the Dispensing Faucet. The Activated

Carbon Post Filter reduces tastes and odors that

may pass through the system. It adds a nal

“polish” to the water.

AUTOMATIC SHUT–OFF VALVE–The ASO

Valve senses when the Holding Tank is full and

closes the feed water supply to prevent excess

reject water from going to drain when the unit is

not producing water.

WATER QUALITY MONITOR–The optional

Water Quality Monitor is integrated into the

Figure 1

TYPICAL TFC–35 AND TFC–35M UNDER SINK INSTALLATION DIAGRAM

DRAIN

(1/4" Black)

DRAIN

(3/8" Black) PRODUCT

(3/8" Blue)

INLET

(1/4" Red)

ACTIVATED

CARBON

POST FILTER

HOUSING

REVERSE

OSMOSIS

MEMBRANE

HOUSING

SEDIMENT/

CARBON

PREFILTER

HOUSING

FEED WATER

SADDLE VALVE

(COLD WATER LINE ONLY)

DISPENSING

FAUCET WITH

AIR GAP

RO MANIFOLD

DRAIN

CLAMP

HOLDING TANK

SHUTOFF VALVE

(Open Position)

DRINKING

WATER

HOLDING

TANK

LOCATE DRAIN CLAMP

ABOVE "P" TRAP

TANK

(3/8" Yellow)

7

6

5

4

2

1

4" MIN.

COVER WITH OPTIONAL

WATER QUALITY

MONITOR

3

WATER QUALITY

MONITOR CABLE

4

5

OPTIONAL TFC–35 AND TFC–35M BASEMENT INSTALLATION DIAGRAM

HOLDING TANK

SHUTOFF VALVE

(Open Position)

FLOOR

DISPENSING

FAUCET

PRODUCT

(3/8" Blue)

DRAIN

(1/4" Black)

RO MANIFOLD

COVER WITH OPTIONAL

WATER QUALITY MONITOR

INLET

(1/4" Red)

TANK

(3/8" Yellow)

FEED WATER

SADDLE VALVE

(COLD WATER

LINE ONLY)

1" AIR GAP

REQUIRED

BASEMENT

FLOOR

NOTE: FOR BEST FLOW RATE,

KEEP TUBING FROM R.O.

MANIFOLD TO DISPENSING

FAUCET AS SHORT AS

POSSIBLE

NOTE: FOR BEST FLOW RATE,

KEEP TUBING FROM HOLDING

TANK TO R.O. MANIFOLD AS

SHORT AS POSSIBLE

PLEASE NOTE: IF AIR GAP ON FAUCET IS NOT USED IN BASEMENT

INSTALLATIONS, A PROPER AIR GAP MUST BE CREATED. PLEASE

CHECK WITH LOCAL PLUMBING CODES. SEE EXAMPLE ABOVE.

DRINKING

WATER

HOLDING

TANK

WATER QUALITY

MONITOR CABLE

REVERSE

OSMOSIS

MEMBRANE

HOUSING

ACTIVATED

CARBON

POST FILTER

HOUSING

SEDIMENT/

CARBON

PREFILTER

HOUSING

MOUNT HOLDING

TANK ON SHELF OR

STRAP BETWEEN

FLOOR JOISTS

(Shelf Or Straps Not

Included)

4

5

system cover for instant monitoring at the touch

of a button. The monitor compares the level of the

total dissolved solids in the incoming (feed) water

versus the product water and calculates the percent

rejection. The monitor is preset to indicate a level

of 75% rejection. NSF/ANSI Standard 58 requires

a 75% total dissolved solids rejection to pass the

requirement of the standard.

A green light indicates that the percent rejection

is at or above the set (desired) value and that the

system is producing quality water.

An amber light indicates that the product

water quality is less than acceptable. Because

the Water Quality Monitor was designed to

operate best while the system is making water,

a false reading may occur if tested when your

R.O. drinking water system is not making water.

Please empty the Holding Tank, wait 15 minutes

for the system to begin making water, and test

your water quality again. If the Water Quality

Monitor light is still amber, please contact a water

treatment professional for service. The Water

Quality Monitor requires a 9 volt battery, which

is included. Systems not equipped with a Water

Quality Monitor contain a Water Quality Test Kit.

SECTION II. SPECIFICATIONS

TABLE A – QUALIFIED SYSTEM PERFORMANCE

Because the performance of an R.O. Membrane is highly dependent upon pressure, temperature, pH and TDS, the

following should be used for comparison purposes only.

U.S. Metric

Membrane Production1 35 ± 7 gpd 106-159 lpd

Membrane TDS Reduction1 95% minimum 95% minimum

System Production² 13 gpd 49 lpd

Recovery Rating² 33% 33%

Efciency Rating² 17% 17%

TDS Reduction² 90%+ typical 90%+ typical

Drain (reject water) Flow 3–5 x product ow 3–5 x product ow

Empty Storage Tank Precharge 5–7 psig air 35–48 kPa air

Storage Tank Capacity2 1.8 gallons 6.8 liters

1 Industry standards measure R.O. Membranes performance with no backpressure on the product water, at 50 psig (345kPa) and 77°F (25°C). Further

conditions on the above are 350 ppm TDS. Production rate and TDS reduction gures are for a new Membrane that has been rinsed for 24 hours. The production

rate of a new Membrane can decrease by 10% per year or more, depending upon the scaling and fouling tendencies of the Feed Water.

2 Measured at 50 psig, 77°±2° F, 751 mg/l TDS per section 6.7 of NSF/ANSI Standard 58. Recovery rating means the percentage of the inuent water to the

membrane portion of the system that is available to the user as reverse osmosis treated water when the system is operated without a storage tank or when the

storage tank is bypassed. Efciency rating means the percentage of the inuent water to the system that is available to the user as reverse osmosis treated

water under operating conditions that approximate typical daily usage.

TABLE B – RECOMMENDED OPERATING LIMITS FOR FEED WATER

Specications T.F.C. Membrane

Water Pressure 40–100 psig (280–690 kPa)

TDS 2000 ppm (also mg/l) max.

Temperature 40–100°F (4–38°C)

pH 4–11 (optimum rejection at pH 7.0 - 7.5)

Hardness Less than 10 gpg (170 mg/l) or soften

Iron Less than 0.1 ppm (also mg/l)

Manganese Less than 0.05 ppm (also mg/l)

Hydrogen Sulde None

Chlorine See note

Bacteria Must be potable**

NOTE: Chlorine will damage a T.F.C. Membrane. The Sediment/Carbon Prelter will remove chlorine from the incoming water. Change lter

every 6 months, more often if the water contains more than 1 ppm chlorine.

**DO NOT USE WITH WATER THAT IS MICROBIOLOGICALLY UNSAFE OR OF UNKNOWN QUALITY, WITHOUT ADEQUATE

DISINFECTION BEFORE OR AFTER THE SYSTEM.

6

7

SECTION III. PREPARATION

A. Major System Components

The following components comprise the R.O.

Drinking Water System. (Refer to Fig. 1, page 3 for

general system layout.)

1. An R.O. Manifold assembly.

2. Housings and Housing O–rings.

3. A Drinking Water Holding Tank.

4. A Dispensing Faucet.

5. A Feed Water Saddle Valve.

6. A Drain Clamp.

7. Plastic Tubing and tube connectors.

8. A Reverse Osmosis Membrane sealed in a

plastic bag.

9. A Sediment/Carbon Prelter, shrink wrapped.

10. An Activated Carbon Post Filter, shrink

wrapped.

11. R.O. System Cover with or without optional

Water Quality Monitor.*

12. Water Quality Test Kit for systems without the

Water Quality Monitor.

13. Other items necessary for installation may

include wood screws or machine screws and

nuts for mounting the manifold, or concrete

anchors for hanging on basement wall,

additional tubing or tube connectors, plastic

wire ties for organizing tubing.

*The Water Quality Monitor may be necessary to conform to state

or local codes, check with the local plumbing authority.

B. Tools Recommended for Installation

The following tools will cover most of the

installation sites encountered:

1. 3/8" variable speed electric drill.

2. Extension work light with outlet.

3. Safety glasses.

4. 1" porcelain hole cutter kit.

5. 1" Greenlee hole punch and 1/8" and "

metal drill bits for pilot hole.

6. Center punch and hammer.

7. 1" wood bit.

8. Concrete drill bits.

9. Assorted wood and metal drill bits including

7/32" metal drill bit.

10. Phillips head and at blade screwdrivers.

11. ", 9/16" and 5/8" open end wrenches.

12. 10" Crescent wrench with jaws taped to hold

faucet.

13. Basin wrench or 10" pipe wrench.

14. Teon tape.

15. Wide masking tape or duct tape.

16. Plastic tubing cutter.

17. Extra plastic tubing.

18. Low range air pressure gauge.

19. Bicycle hand air pump.

20. Small bottle of liquid chlorine bleach.

21. Graduated measuring cylinder.

22. Paper towels, wisk broom and assorted clean up

materials.

C. Site Selection for Major System Components

The R.O. System was designed to t under a sink,

however, because of space limitations or other

reasons, the system’s exible design allows for

other locations. When determining the location

remember that access to a cold water tap line, the

household drain, and ease of lter replacement are

important considerations.

All components and tubing should be located

in an area which is not exposed to freezing

temperatures. If winter temperatures are severe, the

area should be above the minimum temperature

listed in Table B, page 5 for proper performance.

Do not expose unit or tubing to direct sunlight.

1. Dispensing Faucet–The faucet should be

placed near the sink where drinking water is

normally obtained. Convenience of use (lling

of water pitchers and glasses), and an open area

beneath the faucet under the sink for attaching

product and drain tubing are considerations.

A 2" diameter at surface is required above

and below the installation site. The thickness

of the mounting surface should not exceed

1". Watch for strengthening webbing on the

underside of cast iron sinks.

2. Drinking Water Holding Tank–The Holding

Tank may be placed where it is convenient

within 10 feet of the faucet; under the sink or

in an adjacent cabinet are the best choices. If

a longer run of tubing is required, the tubing

should be the 3/8" diameter OD size to prevent

a high pressure drop. Remember, these tanks

6

7

can weigh up to 30 pounds when full of water;

a rm, level area is required.

3. R.O. Manifold Assembly–The manifold can

be installed on either the right or left side of

the under–sink area or a cabinet. The right

side is recommended because the tubing will

be to the back of the cabinet and out of the

way. Installation in the basement is also an

option, one location is near the laundry/utility

sink where cold potable water and drain

access is handy. The mounting location should

allow adequate clearance and accessibility for

cartridge changes.

4. Feed Water Connection–The Feed Water

Saddle Valve should be located as close to

the manifold assembly as possible. USE A

POTABLE COLD WATER SUPPLY ONLY.

Softened water is preferred as it will extend the

life of the R.O. Membrane.

5. Drain Connection–The waste water must go to

drain through an anti–siphon air gap. The air

gap is provided for in the base of the faucet. If

discharging into a utility sink or standpipe, an

air gap of greater than 1" above the ood rim

must be provided.

Do NOT connect the system drain line to the

dishwasher drain or near the garbage disposal.

Backpressure from these units may cause the air

gap to overow.

SECTION IV. INSTALLATION STEPS

All plumbing should be done in accordance with state

and local plumbing codes.

NOTE: Some codes may require installation by a

licensed plumber; check with the local plumbing

authority prior to installation.

In restricted under–sink areas, it may be easier to

install the faucet rst. Allow adequate tubing lengths

for any nal component position.

A. Faucet Installation–The faucet contains an

anti–siphon air gap. While the system is producing

water, the drain water ows from the R.O.,

through the air gap and then to the household

drain. The purpose of the air gap is to prevent

water in the drain from backing up into the R.O.

Drinking Water System.

NOTE: For proper installation the Air Gap

Faucet has a critical level line “CL” marked on its

body and should be mounted so that the “CL” line

is at least one (1) inch (26mm) above the ood

rim of the sink.

The easiest installation is to use an existing

spray attachment hole. If the spray faucet hole is

not available, then the sink top must be drilled.

Choose a convenient location as described in

Sec. III, C.1, page 6.

1. Mark the location of the center of the faucet

base.

2a. Drilling a stainless steel sink:

•Center punch the hole to provide a starting

point for the drill.

•Start with a smaller drill as a pilot, and then

drill a " diameter hole to accept the bolt

of a 1" Greenlee Hole Punch (1" chassis

punch).

•Clean away any chips.

•Install the punch and tighten the nut to cut

the hole.

•Deburr any sharp edges.

2b. Drilling a porcelain sink:

It is best to use a special 1" diameter cutter

designed for porcelain. A carbide tipped

masonry bit is a second choice.

•Place a piece of tape over the area to be

drilled to help prevent chipping.

•Drill a pilot hole for the porcelain cutter.

Use the pilot drill supplied with the kit or a

carbide tipped drill.

•When drilling the 1" hole, drill slowly and

carefully; the porcelain chips easily.

•After drilling, clean the area well. Iron lings,

if left in place, can cause rust stains.

2c. Drilling a counter top:

NOTE: The counter top must be less than 1"

thick. Treat ceramic tile as porcelain until the

tile is penetrated, then use the carbide tipped

metal cutter.

Formica counter tops may be drilled with a

good 1" wood bit; drilling a 3/32" pilot hole

will help keep the bit going straight.

3. Assemble and attach the Faucet (Refer to

Fig. 2, page 8.)

8

9

•Assemble the Body and Spout by removing

the plastic shipping plug from the Body and

then rmly pressing in the Spout.

•In the following order, place the Face Plate

(Escutcheon) on the 7/16" stud.

•From the top of the counter place the stud

through the mounting hole.

•From the bottom of the counter top, in the

following order, assemble the steel Slotted

Washer, the Plastic Spacer (with open end

upwards), the 7/16" Washer and the

7/16" Hex Nut.

•To the end of the 7/16" stud screw on the 3/8"

Polytube Quick Connect Fitting. Once snug

by hand take a pair of pliers and tighten the

tting an additional half turn. Don’t over

tighten.

•Rotate the Spout and Body into position.

Align the Split Washer and the Spacer to

allow access to the Hose Barbs, and tighten

the Hex Nut while holding the faucet in

alignment with a padded Crescent wrench.

Do not over tighten.

B. Feed Water Saddle Valve Installation

Decide on location. Do NOT connect to a hot

water feed line. If you are not sure of the supply,

run the hot water and feel the supply piping.

Water over 100°F may cause permanent damage to

the R.O. Membrane. (Refer to Fig. 3 below.)

FEED WATER SADDLE VALVE

Cold Water

Line

Saddle

Valve

Handle

Insert

Plastic

Ferrule

Tubing To

Manifold

Inlet

Compression

Nut

Tightening

Screw

Reversible

Back Plate

Figure 3

1. Shut off the water supply and drain the line.

2a. To install on (soft) Copper Tubing supply line:

•Turn the Handle of the Feed Water Saddle

Valve counter clockwise (outward) until the

lance does not protrude from the gasket. It

may have to be pushed in.

•Assemble the Feed Water Saddle Valve on

the tubing.

–for 3/8" OD tubing use the back plate side

with the small groove to prevent distortion of

the tubing.

–for larger tubing (up to 5/8" OD) use the large

groove of the back plate.

•Assemble and tighten the brass screw.

•To pierce the tubing, turn the Valve Handle

fully clockwise (inward). A small amount of

water may escape from the outlet until it is

fully pierced.

When you feel the Valve Handle rmly

seated in the clockwise direction, the copper

tube is pierced and the valve is closed.

2b. To install on (hard) Steel or Brass Tubing

supply line.

Spout

Plastic Shipping

Plug (Remove)

7/16" Stud

Face Plate

(Escutcheon)

Mounting

Surface

Plastic Spacer

7/16" Washer

7/16" Hex Nut

3/8" Polytube

Quick Connect

Fitting

3/8" Blue Polytube

CL

Slotted Washer

Air Gap Window

Critical Level

Line

Reject Outlet For

Drain Clamp Line

Reject Inlet For

Manifold Drain Line

LONG REACH AIR GAP FAUCET

WITH 3/8" CONNECTOR

Figure 2

8

9

•The supply line should now be drained. Use a

battery powered or properly grounded drill to

avoid shock hazard.

•Drill a 3/16" hole in the supply line; (do not

drill through the opposite wall).

•Turn the handle to expose the lance no more

than 3/16" beyond the rubber gasket.

•Place the body of the valve over the hole so

that the lance ts into the hole.

•Assemble and tighten the brass screw.

•Turn the Valve Handle clockwise (inward)

until rmly seated. The valve is closed.

3. With the Feed Water Saddle Valve closed,

open the sink faucet and the water supply and

allow the water to run for a few minutes to

ush any debris caused by the installation.

•Close the faucet and check the Feed Water

Saddle Valve for leaks.

C. Drain Clamp Installation

Choose the drain outlet location per Sec. III, C.5,

page 7.

The following are instructions for discharging into

the sink drain pipe. (Refer to Fig. 1, page 3.)

1. Position the Drain Clamp on the sink drain

pipe above the drain trap. Allow room for

drilling. Tighten securely.

2. Use a battery powered or properly grounded

drill. Using the Clamp port as a drill guide,

drill a 7/32" hole through the wall of the drain

pipe. Do NOT penetrate the opposite side of

the pipe.

3. Locate the 3/8" Black Drain Tubing which is

shipped loose in the box.

NOTE: When cutting the polytubing make

clean, square cuts, failing to do so could result

in poor connections and possible leaks.

NOTE: The lowest point of the line should be

the point of connection to the Drain Clamp.

There should be no sag in the line as this may

cause excessive noise as the reject water is

owing to drain.

Firmly press one end of the tubing over the

3/8" drain outlet hose barb on the Air Gap

Faucet. Allow the tubing to relax, then press

rmly again to insure proper seating. No

connectors are required when attaching hose

Drain Clamp

Front Plate

Drain Pipe 1/4" Nut

1/4" Screw

Drain Clamp

Back Plate

Black Drain Tubing

3/8" DRAIN CLAMP ASSEMBLY

Figure 4

10

11

to Hose Barbs. Route the tubing to the Drain

Clamp and trim to length.

•Refer to Fig. 4, page 9. Insert the tubing into

the Drain Clamp. Make sure the tubing is

pressed all the way in to create a pressure

tight connection.

NOTE: If you want to pull the tubing out for

some reason, push the ring around the tubing

in and pull the tubing out.

D. R.O. Manifold Assembly Installation

Locate the site per Sec. III, C.3, page 7. Various

installation sites will require different types of

mounting fasteners; be sure the fastener selected

will provide a rm, solid mounting. A support

panel may be necessary on thin cabinet walls or

to span between wall studs on particle board or

drywall.

Do not drill through exterior cabinet walls or

leave sharp wood screw points exposed in readily

accessible cabinet interiors.

The close proximity of a dishwasher or a trash

compactor may require special fabrication of a

mounting plate.

1. The mounting bracket will accept either

#10 or #12 (5 mm) mounting screws spaced

on 6" (15 cm) centers. Allow at least 4" (10

cm) of clearance beneath the lter housings

to accommodate lter changes. Mark the

two locations (the bracket can be used as a

template). Install the screws and tighten them

until the heads are about 5/8" from the wall.

2. Locate the " Red Feed Water Tubing.

Remove the red plug from the tting labelled

“In” on the manifold and insert the tubing.

Reference the special supplement sheet in

the carton for proper connection of all tubing

and removal of plugs. Run the tubing along its

course to the Feed Water Saddle Valve, trim to

length. (Refer to Fig. 1, page 3.)

Refer to Fig. 3, page 8. To the end of the red

polytube install the Compression Nut, the

Plastic Ferrule, and the Insert. Connect to the

Feed Water Saddle Valve.

3. Locate the " Black Drain Tubing. Remove

the black plug from the tting labelled “Drain”

on the manifold and insert the tubing. The

end of the Black Drain Tubing that should be

inserted into the “Drain” port will have a green

drain restrictor in it. Run the tubing along its

course to the " Hose Barb on the Dispensing

Faucet, trim to length and connect by rmly

pressing over the barb. Allow the tubing to

relax, then press rmly again to insure proper

seating.

4. Locate the 3/8" Blue Product Water Tubing.

Remove the blue plug from the the elbow

connected to the tting labelled “Out” on the

manifold and insert the tubing. Run the tubing

along its course to the Dispensing Faucet and

trim to length. Push the tubing into the faucet

connector. The tting will grab the tubing and

seal it in place. Make sure the tubing is pressed

all the way in past the O–ring to create a

pressure tight connection.

NOTE: If you want to pull the tubing out for

some reason, push the ring around the tubing

in and pull the tubing out.

5. Locate the 3/8" Yellow Tubing. Remove the

yellow plug from the tting on top of the

manifold labelled “Tank” and insert the tubing.

(Refer to Fig. 1, page 3.)

6. Hang the Manifold Assembly on the

mounting screws and tighten. DO NOT

OVERTIGHTEN.

E. Position the Drinking Water Holding Tank and

Make the Final Hose Connections.

1. Check the tank precharge pressure. Make sure

it is between 5 to 7 psig. If not, use a bicycle

hand pump or other pump to bring the pressure

up to the 5 to 7 psig range.

2. Pull the cap/plug off the top of the tank where

the Tank Shut–Off should go. (Refer to Fig. 1,

page 3.)

3. Wrap the white teon tape, included in the

box, three times around the " male outlet

thread. Wrap in the direction of the threads

(clockwise, when looking down on the Holding

Tank). The tape will act as a thread sealant.

Screw on the Holding Tank Shut–Off Valve.

4. Locate the 3/8" Yellow Tubing which is attached

to the elbow on top of the manifold and run

the tubing along its course to the tank and trim

to length. Insert the tubing into the Holding

Tank Shut–Off Valve tting. Make sure the

tubing is pressed in all the way past the O–ring.

The tting will grab the tubing and seal it in

place.

Micro TFC-35 Manuale

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