Atlantic Waterscapes BF1000, Waterscapes PS4000, Waterscapes BF1500, Waterscapes BF1250, Waterscapes PS4500 Instruction Manual

INSTRUCTION MANUAL

www.WATERSCAPESINTERNATIONAL.com

Product Specications Page 2

WATER GARDENS

Determining Pond Volume Page 3
Determining Surface Area Page 3
Streambed Construction Page 4
Placement of FilterFalls and Skimmer Page 4

SKIMMER INSTALLATION

Excavating and Setting the Skimmer Page 5
Attaching the Liner Page 5
Attaching the Weir Door Page 6

Plumbing the Skimmer Page 7

FILTERFALLS INSTALLATION

Bulkhead Installation Page 7

Setting the Filterfalls Page 7

Liner Attachment Page 8

ECHO CHAMBER INSTALLATION

Echo Chamber vs. Gravel Page 8

Excavating and Setting the Echo Chamber Page 9

Liner Attachment Page 9

FASTFALLS INSTALLATION

Bulkhead Installation Page 10

Setting the FastFalls Page 11

Liner and Plumbing Attachment Page 11

TABLE OF CONTENTS

2

PRODUCT SPECIFICATIONS/CROSS-REFERENCE GUIDE

FILTERFALLS

MODEL

BF1000
BF1250
BF1500

SKIMMER
MODELS

PS4000
PS4500

SPILLWAY
WIDTH

14”
17”

20.5”

WEIR
DOOR

6"
9"

BULKHEAD
SIZE

1½”
1½”
1½”

SQ. FT.

RATING

300
600

MAX. POND

VOLUME

1000 GAL
1250 GAL
1500 GAL

MATCH TO
SKIMMER

PS4000
PS4000
PS4500

REC. FLOW

RATES GPH

1500-2500
2000-3000
2500-4000

REC. FLOW

RATES GPH

1000-3000
2000-4000

PRODUCT
DIMENSIONS

16"Wx20”Dx14"H
19”Wx22.5”Dx14”H
24”Wx30”Dx20”H

PRODUCT
DIMENSIONS

17.5”Wx24”Dx22”H

17.5”Wx24”Dx22”H

MATCH TO FILTERFALLS

BF2000/BF1000/BF1250
BF1500

3

POND VOLUME

It is important to calculate the estimated water volume before you begin construction, and

then re-calculate nal water volume when your project is completed. Estimating water volume
pre-construction is a step that is often skipped by many homeowners and contractors. A
water garden with undersized ltration can prove to be a maintenance nightmare.

TO DETERMINE POND VOLUME

Multiply (in feet) the average length x the average width x the average depth to nd
cubic feet of pond volume. Multiply cubic feet x 7.48 = gallons.

WATER GARDENS

SURFACE AREA

When using any pond skimmer it is important to keep the surface area (in square feet) of

the pond in mind. Upon star t-up, the pump sends water from the bottom reservoir to the top
of the waterfall and/or streambed. The water must then ll, from top to bottom, the waterfalls
and streambed until it eventually re-enters the pond and the water levels equalize. During
water in transition process, the water level of the bottom reservoir is continually dropping. If

the streambed is built improperly, or is built too big, the water level of the bottom reservoir

could drop below the opening in the skimmer before the water levels equalize. This would
result in the pump running dry and starving for water.

This situation can be easily avoided by using the formula provided to calculate the surface area

of your pond. With that number, you can then determine the maximum surface area of waterfalls
and streambed that your pond can accomodate.

TO DETERMINE SURFACE FOOTAGE

Multiply (in feet) the average length x the average width = total square feet of the pond

surface area. Multiply the surface area of the pond x .5 = maximum surface area for falls.

10’

5’

3’3”

8’

Use the product specication/cross reference guide on page 2 to verify the
maximum pond volume and ow rates for your Waterscapes Equipment.

LENGTH

WIDTH

DEPTH

Figure 1.

Figure 2.

EXAMPLE

10’ x 5’ = 50sq ft pond surface area
50sq ft x .5 = 25sq ft stream surface area

4

PLACEMENT OF THE FILTERFALLS AND SKIMMER

Now that you have determined the size of the pond, waterfalls and lter system, it is time
to determine the placement of the components. Whenever possible, it is best to position the
Skimmer and FilterFalls directly across from each other at opposite ends of the pond. This
setup creates a current that pulls surface debris into the Skimmer. If the Skimmer and

FilterFalls are placed too close together, or the pond has an unusual shape, dead areas can

occur. These dead areas can be eliminated with the use of multiple falls or multiple skimmers.

STREAMBED CONSTRUCTION

Using proper streambed construction techniques can limit the transitional water needed
to ll the streambed and enables the system to function optimally. Transitional water is
determined by the height that the weir rock extends above the liner at the spillway opening.

Maintaining the shortest distance possible between the top of the weir rock and the liner is a
crucial component to a properly functioning water garden. Figure 3 displays two examples of

proper construction techniques for minimal transitional water.

Figure 4 is an example of improper streambed construction. Stone, gravel and foam can be

combined to make a barrier and create a waterfall, but that barrier will never be watertight.

When the pump is turned off, the water will always drain down to the highest point of the

liner. Improper construction greatly increases the water in transition.

Figure 3.

Top of liner

Top of water

Transitional Water

Top of liner

Top of water

Transitional Water

Figure 4.

Top of liner

Top of water

Transitional

Water

5

WATERSCAPES SKIMMER INSTALLATION

EXCAVATING AND SETTING THE PS4000/PS4500

Prior to setting the skimmer you must rst determine the surface level of the water in the
pond. Once you have this number you can excavate for the Skimmer. The excavation should
be a few inches wider and longer than the Skimmer body. The depth of excavation for the
PS4000/PS4500 should be 17” below water level. Do not dig too deep. The skimmer should
be set on stable, compacted soil. In the case that you over-dig, be sure to compact the soil
thoroughly to prevent settling. The bottom of the hole should be level side-to-side and
front-to-back (Figure 5).

Place the skimmer enclosure into the excavated hole. Check the top of the enclosure to
make sure that it is level front-to-back and side-to-side. Check where your pre-determined
water level falls on the face of the skimmer enclosure. Water level should be 1¼” below the
top of the weir door opening.
Make sure that any unexcavated soil that is left in front of the Skimmer is at least 10” below
water level. This will ensure that there is enough room for the weir door to be installed and
function properly.

Before you go any further into the Skimmer installation, place a few stones inside the

Skimmer enclosure to weigh it down and keep it from moving.
Prior to backlling the enclosure, make sure the support bar is installed inside the skimmer.
The support bar must be in place for the enclosure to retain its shape during the backlling
process. Loosely backll the enclosure on all sides, lightly compacting as you go. Do not
over-compact the soil! Aggressive compaction may deform the enclosure and cause
components to t improperly.

ATTACHING THE LINER

Hold the liner up against the face of the Skimmer, allowing a minimum of 2” to extend

above the top of the enclosure. Leave some excess slack in the liner below the weir opening.
This will help alleviate any future strain on the liner connection.

Make sure that the front surface of the Skimmer, and the back side of the liner, are clean

and free of debris. When you are satised with the position of the liner, clip it in place with
the provided spring clips. With a sharp razor knife, cut a hole in the liner for the weir door
using the hole in the face of the skimmer as a guide (Figure 6).

Figure 5.

WATER LEVEL

1

1

/4” - 11/2”

10” MIN

6

ATTACHING THE WEIR DOOR

Unlatch the weir door and lower the door to its fully

open position. Insert the weir door assembly into the

Skimmer opening. With one hand push the bottom of

the weir door frame tight against the Skimmer face. With

the other hand gently push down on the weir door latch

until it clears the top of the opening. Once it does, push

the weir door assembly into the Skimmer opening until the

frame rests against the face of the enclosure (Figure 7).

Line up the holes of the weir door frame with the

holes in the Skimmer face. Use a nail or awl to help line

up the holes and pierce the liner in the top corners.

Loosely fasten the top corners using two of the supplied

1/4-20 machine screws and serrated ange nuts. Next,

install two screws in the bottom corners of the weir

door frame (Figure 8).

Once you have the weir door tacked at the corners

you can install the rest of the screws. Do not fully tighten

any screws until all of the screws have been installed.

When you are nished, remove the spring clips and pull the liner away from the face of

the skimmer. Apply a consistent bead of RTV silicone to the face of the Skimmer along the
centerline of the pre-drilled bolt holes. Once you are nished, you can return the liner to its

original position and replace the spring clips

.

Use your ngers to hold the ange nut and a hand held screwdriver to tighten the screws.
The serrations on the ange nut will grab the plastic enclosure once it makes contact,
eliminating the need to use a wrench. Use caution when tightening the screws. The screws
need only be snug for the silicone to make a seal.

Figure 6.

Figure 7.

Figure 8.

7

PLUMBING THE SKIMMER (MODELS: PS4000, 4500)

Waterscapes PS4000 and PS4500 Skimmers are packaged with pump outlets predrilled

in either side of the enclosures. The holes are sized to accept up to a 2” exible PVC pipe.
Insert the pipe into the hole on whichever side of the Skimmer is most compatible with your

application. The pump outlets are drilled above water level, so there is no need for this to be
a water tight connection. The pre-drilled hole that is not being utilized can simply be blocked
off with a at stone on the outside of the enclosure.
It is recommended that you install a check valve between the pump and the supply line.
This valve will prevent the FilterFalls from draining when the pump is off, which keeps the
benecial bacteria alive and any debris that the FilterFalls has collected from back owing into
your pond.
A drill point is provided on both sides of your Skimmer to show the proper location for
the installation of an Auto Fill valve (not included). There is a drill-point provided on the

back of the Skimmer to show the proper location and elevation for the installation of an

overow (not included).

SETTING THE FILTERFALLS

It is always recommended that the FilterFalls be placed on undisturbed soil if possible. If the

installation calls for the FilterFalls to be elevated above existing grade, it is critical to compact

the area thoroughly. This will ensure that the FilterFalls will not settle out-of-level over time.
The use of cinder blocks or bricks under the falls to raise it up will help reduce the chance
of settling.
The FilterFalls can be placed adjacent to the pond edge to create a single waterfall, or pulled
away from the pond to create a streambed effect. Refer to the surface area recommendations
on page 3 to ensure that the streambed is properly sized.

Once you have placed the unit, make sure it is level from side to side and check the level

from front to back. FilterFalls should always be installed tilted slightly forward about ¼”. This
will ensure that water never leaks out over the back of the enclosure. When you are nished
positioning the unit, weigh it down with a few rocks to keep it in place while you backll and
make your liner and plumbing connections. Apply silicone on the threads of the Male Thread
Adaptor (MTA). Screw the MTA into the bulkhead until tight. Use PVC Glue (not included)
to glue the PVC ex hose into the MTA.

Do not completely backll the FilterFalls until all of your plumbing connections are
made and the liner has been attached.

WATERSCAPES FILTERFALLS INSTALLATION

BULKHEAD INSTALLATION (MODELS: BF1000, BF1250, BF1500)

It is a good idea to install the bulkhead tting and proper hose adaptor (not included)

before setting the FilterFalls. A 1½” bulkhead has been provided in the installation kit for the
models listed above. Remove the retaining nut, friction washer and one rubber gasket,
leaving one rubber gasket on the body of the bulkhead tting. From the inside of the FilterFalls,
insert the threaded end of the bulkhead into the hole on the side of the enclosure. This will
sandwich the rubber gasket between the ange of the bulkhead and the inside wall of the
enclosure. Slip rst the rubber gasket and then the friction washer over the threaded end of
the bulkhead on the outside of the enclosure. Next, tighten the retaining nut by hand and
then nish off with a ½ turn from a wrench.

8

POND-FREE

Pond–free features exchange the open water of the pond for a gravel-topped excavation,
maximizing visual impact while minimizing headaches and maintenance. Typically, a pump placed

in a protective vault inside a lined reservoir continuously recirculates water over a stream or

waterfall. A bed of gravel hides the basin, vault and plumbing from view, leaving only the stream
and waterfall visible.

LINER ATTACHMENT (MODELS: BF1000, 1250, 1500)

Dry t the liner. Hold the liner up against the at panel of the FilterFalls enclosure underneath
the spillway. Leave some excess slack in the liner below the spillway opening. This will help
alleviate any future strain on the liner connection. Make sure that the front surface of the
FilterFalls, and the back side of the liner are clean and free of debris. Once you are satised
with the position of the liner, lower it down and prepare to apply the silicone sealant.
Apply sh-safe silicone sealant in a consistent bead across the face of the FilterFalls,
approximately 2” below the spillway. Once completed, return the liner to its dry-t position
and hold it in place with the provided spring clips.
Place the supplied ange under the spillway, against the face of the enclosure, on top of the
liner. The holes of the ange should be approximately 2” below the spillway so they line up
with the silicone bead. Using the stainless steel self piercing screws, attach the liner
ange to the lter. Be sure to seal the back

of each screw with a dab of silicone on

the inside of the enclosure (Figure 9).

ECHO CHAMBER VS. GRAVEL BASIN FOR A WATERFALL OR STREAM

Gravel basins consist of 70% rock and only 30% water. Echo Chamber basins are lled with

100% of water. As a rule of thumb, your pond-free basin should hold three times the amount
of water as the waterfalls and streambeds above it. It is critical to calculate the water volume
that the basin can hold before you begin construction of the waterfalls or streambed.

WHY SHOULD THE BASIN BE THREE TIMES THE SIZE OF THE STREAM?

Upon start-up, the pump sends water from the bottom reservoir to the top of the waterfall
and/or streambed. The water must then ll, from top to bottom, the waterfalls and streambed
until it eventually re-enters the basin and the water levels equalize. During this lling process,
the water level of the bottom reservoir is continually dropping.

If the streambed is built improperly, or is built too big, the water level of the bottom

reservoir may drop below the top of the pump before the water levels equalize. This would
result in the top of the pump being exposed to air. Pumps must be completely submersed in

water or they can overheat causing damage to the pump. Refer to the streambed construction
section on page 4 for more detail.

Figure 9.

Be extremely cautious when tightening the
screws. You can use a cordless drill to start the
screws; however, it is strongly recommended
that you nish tightening them with a hand
held screwdriver. Over tightening the screws
could strip out the enclosure or crack the liner
ange. The screws need only to be snug for
the silicone to make a seal.

WATER VOLUME

The Echo Chamber holds 100 gallons of water. As a rule of thumb, your pond-free basin

should hold three times the amount of water as the waterfalls and streambeds above it. This
means that one Echo Chamber will accommodate a streambed that holds 33 gallons of water.
Use the formula below to calculate the streambed
volume of your project (Figure 10).

STREAMBED VOLUME

Multiply (in feet) the average length x the
average width x the average depth of water

to nd cubic feet of streambed volume.
Multiply cubic feet x 7.48 = gallons

EXCAVATING AND SETTING THE ECHO CHAMBER

Dig a hole approximately 3’ wide, 4’ long and 26” deep. Do not dig too deep. The Echo

Chamber should be set on undisturbed earth if possible. In the case that you over-dig, be sure
to compact the soil thoroughly to prevent settling. The bottom of the hole should be level
side-to-side and front-to-back.
Place the Echo Chamber into the excavated hole. The top lip of the Echo Chamber should
be about 1” above the surrounding grade. Check the top of the chamber to make sure that it
is level front-to-back and side-to-side. Place a few stones inside the Echo Chamber at this time
to weigh it down and keep it from moving.
Install the 1 ½” solid support tubes and begin backlling. The support tubes must be in place
for the enclosure to retain its shape during the back-lling process. Loosely backll the Echo
Chamber on all sides, lightly compacting as you go. Do not over compact the soil! Aggressive
compaction may deform the enclosure and cause components to t improperly.

9

Figure 10.

ECHO CHAMBER INSTALLATION

The Echo Chamber patented design enables it to hold three times more water in the same
amount of space as traditional gravel basins. The Echo Chamber is also modular. Multiple Echo
Chambers can be plumbed together to increase water volume (for longer streambeds), or to
increase the basins width (for wider waterfalls). The versatility and ease of installation is what
makes the Echo Chamber the best choice for pond-free features.

WIDTH

DEPTH OF
WATER

LENGTH

2” DEEP = .16”
3” DEEP = .25”
4” DEEP = .33”
5” DEEP = .42”
6” DEEP = .5”

Figure 11.

ATTACHING THE LINER

LIMITED SPLASH

Remove the support bars. Drape approximately 1’ of pond
liner over the side of the Echo Chamber. Replace the support

tubes one at a time starting at the center and working your

way to the outside walls. Once you have inserted the
support bars, install the top grate(s) (Figure 11).

EXCESSIVE SPLASH

Use some of the soil from the excavation of the
hole to build up the area around the Echo Chamber,
creating a dish effect. Leave the support tubes in place
and pull the liner over the top of the Echo Chamber.
With a sharp razor knife, cut a hole in the liner above the Echo Chamber.

10

Leave at least 4” of liner between the hole and

the outside walls. Place the grate(s) on top of the

support tubes, sandwiching the liner. Any water

that splashes inside the liner ring will be funneled

back into the chamber (Figure 12).

MULTIPLE ECHO CHAMBERS

For installations that require extra water volume, or

an extra wide basin, multiple Echo Chambers can be
connected together. Drill-points have been provided

on all sides of the chamber to show the proper

location for the installation of a 3” bulkhead tting.

When installing two or more units, they must be

plumbed together so they can share water (Figure 13).

FOUNTAIN
POND-FREE
WATER FEATURE

WATERSCAPES FASTFALLS INSTALLATION

BULKHEAD INSTALLATION (MODELS: SP1400, SP2500, SP3600, SP4800)

It is a good idea to install the bulkhead tting and proper hose adaptor (not included) before
setting the FastFalls. The SP1400 comes pre-drilled for a 1 ½” bulkhead tting while the SP2500,
SP3600 come pre-drilled for a 2” bulkhead tting. The SP4800 is pre-drilled for (2) 2" bulkhead
ttings and must be plumbed from both sides.
Remove the retaining nut, friction washer and one rubber gasket (model SP1400 only),
leaving one rubber gasket on the body of the bulkhead tting. From the inside of the FastFalls,
insert the threaded end of the bulkhead into the hole on the side of the enclosure. This will
sandwich the rubber gasket between the ange of the bulkhead and the inside wall of the
enclosure. Slip rst the rubber gasket and then the friction washer over the threaded end of
the bulkhead on the outside of the enclosure. Next, tighten the retaining nut by hand and
then nish off with a ½ turn from a wrench.

DISAPPEARING WATERFALL
FALLS WITH ECHO CHAMBER

Figure 12.

JOIN 3” PLUMBING

SILICONE BEAD

STAINLESS

NUTS & BOLTS

Figure 13.

Place the supplied ange under the spillway, against the face of the enclosure, on top of the
liner. The holes of the ange should be approximately 2” below the spillway so they line up
with the silicone bead. Using the stainless steel self piercing screws, attach the liner ange to the
FastFalls. Be sure to seal the back of each screw with a dab of silicone on the inside of the
enclosure (Figure 14).

11

Figure 14.

SETTING THE FASTFALLS

It is always recommended that the FastFalls be placed on undisturbed soil if possible. If the
installation calls for the FastFalls to be elevated above existing grade, it is critical to compact the area

thoroughly. This will ensure that the FastFalls will not settle out of level over time.
The FastFalls can be placed adjacent to the basin edge to create a single waterfall, or pulled away
from the pond to create a streambed effect.

Once you have placed the unit, make sure it is level from side-to-side and check the level from

front-to-back. FastFalls should always be installed tilted slightly forward about ¼”. This will ensure that
water never leaks out over the back of the enclosure.

LINER ATTACHMENT (SP1400, SP2500, SP3600, SP4800)

Dry t the liner. Hold the liner up against the at panel of the FastFalls enclosure underneath
the spillway. Leave some excess slack in the liner below the spillway opening. This will help
alleviate any future strain on the liner connection. Make sure that the front surface of the
FastFalls, and the back side of the liner, are clean and free of debris. Once you are satised
with the position of the liner, lower it down and prepare to apply the silicone sealant.
Apply sh-safe silicone sealant in a consistent bead across the face of the FastFalls,
approximately 2” below the spillway. Once completed, return the liner to its dry-t position
and hold it in place with the provided spring clips. (Figure 14).

Be extremely cautious when tightening the screws. You can use a cordless drill to start
the screws; however, it is strongly recommended that you nish tightening them with
a hand held screwdriver. Over tightening the screws could strip out the enclosure or
crack the liner ange. The screws need only to be snug for the silicone to make a seal.

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