Smartloop coupling
Year built (from): | 29.07.2008 |
Trade mark rights exist for this document, further information can be found at www.viega.com/legal-notices.
The information in this manual is directed at heating and sanitary professionals and trained personnel.
It is not permitted for individuals without the abovementioned training or qualification to mount, install and, if required, service this product. This restriction does not extend to possible operating instructions.
The installation of Viega products must take place in accordance with the general rules of engineering and the Viega instructions for use.
Warning and advisory texts are set aside from the remainder of the text and are labelled with the relevant pictographs.
This symbol warns against possible life-threatening injury.
This symbol warns against possible serious injury.
This symbol warns against possible injury.
This symbol warns against possible damage to property.
Notes give you additional helpful tips.
This instruction for use contains important information about the choice of product or system, assembly and commissioning as well as intended use and, if required, maintenance measures. The information about the products, their properties and application technology are based on the current standards in Europe (e. g. EN) and/or in Germany (e. g. DIN/DVGW).
Some passages in the text may refer to technical codes in Europe/Germany. These should serve as recommendations in the absence of corresponding national regulations. The pertinent national laws, standards, regulations and guidelines, as well as other technical guidelines, have priority over German/European guidelines in this manual: The information is not binding for other countries and territories and should, as mentioned, be considered as support.
The use of the system for areas of use and media other than those described must be approved by the Viega Service Center.
The Smartloop Inliner technology is employed as an internal circulation pipe in drinking water installations. The system is particularly suitable for hot water riser pipes from d 28 and above.
The general rules of engineering must be observed for planning, execution, operation and maintenance of drinking water installations.
e. g. the following regulations apply:
DIN EN 806 Part 1–5 and DIN EN 1717
Supplementary national regulations amongst others DIN 1988, VDI/DVGW 6023 and Drinking Water Ordinance (DWO)
DVGW Worksheet W 553
We recommend using the planning software Viega Viptool when laying a drinking water installation with Smartloop Inliner technology.
The system is suitable for the following media:
Drinking water
without restrictions in acc. with DWO
max. chloride concentration 250 mg / l (in acc. with DWO)
In acc. with DWO and DIN 50930‑6, Smartloop Inliner technology is suitable for use with all types of drinking water. The plastic components conform with the KTW recommendation and the requirements of DVGW Worksheet W 270.
The Smartloop system consists of the following components:
Smartloop connection set (model 2276.1)
Smartloop pipe (model 2007.3)
Smartloop tension coupling (model 2276.9)
Smartloop repair coupling (model 2276.8)
The system components are available in the following dimensions:
end closing piece-/connection piece d = 28, 35, 28 / 35
Smartloop pipe d = 12
The circulation of hot water in the line is achieved in the following way: Water is directed back into the hot water heating system and replaced by hot water via the opening in the end closing piece (1) of the last T-piece (2). This ensures that sufficient hot water is available at hygienically flawless temperatures at every floor connection line.
The temperature in the riser pipe area does not continually drop in the direction of flow with Smartloop Inliner circulation. The lowest temperature in the riser pipe is therefore at the end closing piece, in the area of the diversion in the internal circulation. With large-scale systems with several lines, this leads to an increase in the temperature in the circulation collector pipe. As a result, the temperature of the return flow water is higher than with conventional circulation systems, which, in turn, has advantages in terms of energy.
The press connection has a circumferential bead in which the sealing element lies. The connector is deformed in front of and behind the bead and permanently connected to the pipe during pressing. The sealing element is not deformed during pressing.
Viega press connections are equipped with the SC‑Contur. The SC‑Contur is a safety technology that is certified by the DVGW and ensures that the connection is guaranteed to be leaky in an unpressed state. In this way, unpressed connections are noticed immediately during a leakage test.
Viega guarantees that unpressed connections are visible during a leakage test:
with the wet leakage test in the pressure range from 0.1–0,65 MPa (1.0–6.5 bar)
with dry leakage test in the pressure range from 22 hPa–0.3 MPa (22 mbar–3.0 bar)
Only EPDM sealing elements are approved in drinking water installations. The use of other sealing elements is not permitted.
The model is factory-fitted with EPDM sealing elements.
Operating temperature |
---|
Operating pressure |
Comments: |
70 °C (Tmax = 95 °C) |
1.0 MPa (10 bar) (Pmax = 1.6 MPa (16 bar) |
see note Media |
The pipe markings contain important information regarding the material configuration and manufacture of the pipes. Their meaning is as follows:
Manufacturer
System name
Pipe material
Certification
Dimension
Length specification
Date of manufacture
Batch number
Manufacturing standard
The press connections are marked with a coloured dot. This identifies the SC‑Contur, where the test medium would escape in the case of an inadvertently unpressed connection.
The green dot indicates that the system is suitable for drinking water and is equipped with the SC‑Contur.
The model is equipped with press connections and is compatible with the Profipress, Sanpress and Sanpress Inox systems.
The press connections are tested and certified with the following types of pipe in acc. with DVGW Worksheet G 534:
Copper pipes
in acc. with DVGW Worksheet GW 392
in acc. with DIN EN 1057
Stainless steel pipes (material 1.4401 / 1.4521)
in acc. with DVGW Worksheet GW 541
in acc. with DIN EN 10312
in acc. with DIN EN 10088
Observe the following operating conditions for the installation of the system:
Operating temperature |
---|
Operating pressure |
Comments: |
70 °C Tmax 95 °C |
1.0 MPa (10 bar) Pmax 1.6 MPa (16 bar) |
see note Media |
Generally, components from different piping systems should not be used in the same installation. The different materials may have a detrimental effect on each other e. g. cause corrosion.
Generally, components from the Viega systems Profipress, Sanpress and Sanpress Inox can be used in the Smartloop system.
The flow rules must be observed in all mixed installations with different metals.
Should you have any questions on this subject, please contact the Viega Service Center.
Overground pipelines and fittings in rooms do not normally require external corrosion protection.
There are exceptions in the following cases:
Contact with aggressive building materials such as nitrite or materials containing ammonium
in aggressive surroundings
If external corrosion protection is required, the following regulations should be followed:
DIN EN 806‑2
DIN 1988‑200
DKI information publication i. 160
The chloride concentration in the medium must not exceed 250 mg/l.
This chloride is not a disinfectant, but in fact pertains to the content in sea and table salt (sodium chloride).
Important instruction
With their material-specific qualities, sealing elements in press connectors are adapted for use with the corresponding media and/or the areas of use of the piping systems and are generally only certified for them.
The exchange of a sealing element is generally permitted. The sealing element must be exchanged for a designated spare part for the intended application Sealing elements . The use of other sealing elements is not permitted.
Do not remove the part from the packaging until immediately before use.
System components may, in some cases, become damaged through transportation and storage.
Check all parts.
Replace damaged components.
Do not repair damaged components.
Contaminated components may not be installed.
Information can be found in the Profipress, Sanpress and Sanpress Inox system instructions for use.
Information can be found in the Profipress, Sanpress and Sanpress Inox system instructions for use.
The following tools are required for production of a press connection:
Pipe cutter or a fine-toothed hacksaw
Deburrer and coloured pen for marking
Press machine with constant pressing force
Press jaw or press ring with corresponding adapter jaw, suitable for the pipe diameter and suitable profile
Recommended Viega press machines:
Pressgun 5
Pressgun Picco
Pressgun 4E / 4B
Picco
Type PT3-AH
Type PT3-H / EH
Type 2 (PT2)
The following tools are required for mounting the Smartloop pipe:
pipe shear, e. g. model 2040
mounting pliers, e. g. model 1077.2
hand press tool, e. g. model 2782
or press jaw, model 2799.7
Do not use pointed or sharp-edged objects during removal. These could damage the sealing element or bead.
Remove the sealing element from the bead.
Insert new, undamaged sealing element into the bead.
Check if the whole sealing element is in the bead.
Offset |
---|
Diversion L [mm] |
Components required |
Slight | 45° | 90° |
---|---|---|
≥40–45 | ≥45–500 | ≥150–500 |
1 elbow 45° 1 elbow 45° with insertion ends | 2 elbows 45° | 2 elbows 45° 2 elbows 45° with plug-in end |
Any installation variations differing from those shown should be agreed with the Viega Service Center.
Pressing with a handtool is shown in the following assembly steps. Alternatively, a suitable Viega press machine with the corresponding press jaws can be used Required tools .
Requirements:
The riser pipe is completed.
The riser pipe consists of Profipress, Sanpress or Sanpress Inox components
The dimension of the riser pipe is at least d 28 and maximum d 108.
Press a T-piece onto each of the top and lower end of the riser pipe.
Create floor outlets in d 22, reduce if necessary.
Only carry out one offset per line Maximum offset of the circulation pipe .
Other diversions only after consultation with the Viega Service Center.
Install the pipe in the riser pipe.
We recommend mounting the tension coupling model 2276.9 onto the end of the pipe.
Alternatives: Chamfer the pipe with a file.
Push the pipe into the hot water riser pipe from above.
The pipe must protrude from the lower end of the riser pipe by approx. 30 cm.
The pipe should be cut to length properly.
Push a press sleeve onto the top pipe end.
Insert the end closing piece into the Smartloop pipe.
Check the insertion depth in the inspection window.
Apply the press tool at a right-angle.
When pressing, press the manual pliers in one action until the pliers can be re-opened.
Position the end closing piece in the upper T-piece of the hot water riser pipe.
If necessary, use a reducer.
Press connection.
Tighten the pipe on the lower end using the mounting pliers.
Continue to hold the pipe tightly and shorten properly 40 mm below the T-piece.
Push a press sleeve onto the lower pipe end.
Push the adapter into the pipe.
Check the insertion depth in the inspection window.
Apply the press tool at a right-angle.
When pressing, press the manual pliers in one action until the pliers can be re-opened.
Mount the connecting piece into the adapter as far as it will go and press.
Remove the mounting pliers.
Push the connecting piece as far as it will go into the lower T-piece of the hot water riser pipe and press.
Connect the hot water riser pipe and the circulation pipe onto the corresponding cellar supply and collector lines.
Perform leakage test.
The installer must perform a leakage test before commissioning.
This test is carried out on a unit that is finished but not yet covered.
The general rules of engineering must be observed.
E. g. the following regulations apply:
DIN EN 806–4
The result must be documented.
Inform your customer or the operator of the drinking water installation that the system has to be maintained on a regular basis.
DIN EN 806‑5 must be observed for the operation and maintenance of drinking water installations.
The repair coupling (model 2276.8) can be used in the case of a damaged riser pipe or an extension of the installation.
Material required:
Repair coupling with two press sleeves, model 2276.8
Sanpress sliding coupling, model 2215.5
Sanpress repair sliding coupling, model 2215.4
Cut all the way through the riser pipe and Smartloop pipe.
Measure and mark the length of the repair sliding coupling.
Remove the section of piping from the riser pipe.
Mark the minimum insertion depth on the upper and lower pipe.
Push the sliding coupling (model 2215.5) onto the lower pipeline completely.
Push the sliding coupling (model 2215.4) as far as it will go onto the upper pipeline.
Mount the repair coupling onto the Smartloop pipe.
Check the insertion depth in the inspection window.
Press the press sleeves. When doing so, apply the press tool at a right-angle.
When pressing, press the manual pliers in one action until the pliers can be re-opened.
Push the sliding couplings together.
Position the sliding couplings in such a way that the minimum insertion depth is achieved:
The markings of the insertion depth are not visible.
Press the pressing points of both sliding couplings.
Separate the product and packaging materials (e. g. paper, metal, plastic or non-ferrous metals) and dispose of in accordance with valid national legal requirements.