waterbased systems - magnum · beneath laminate floors or similar flooring which can be placed...
TRANSCRIPT
WATERBASED SYSTEMSInstallation Manual
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© C&F Technics B.V. | 2017 With this publication all previous editions are cancelled. All our sales and deliveries are subject to our general terms and conditions of sale and delivery. No rights can be derived from the contents of this brochure. Nothing in this brochure may be duplicated or published without the permission of C&F Technics B.V.
Congratulations on the purchase of thisMAGNUM product. This MAGNUM Heatingproduct is manufactured from high quality,durable materials. To guarantee that yourproduct functions optimally there are a fewpoints of attention which are described in theInstallation Instructions. We can only offer youthe full guarantee if the system is correctlyinstalled in accordance with these InstallationInstructions. Carefully read the instructions and ensure that you have the correct tools and materials.
If you have questions or would like to receive more information, you can contact us in the following ways:
• Call Mon untill Fri 08.00 u-17.00 u 0900 - 911 0 911 • Send an email with your question to
For more information and our other products magnumheating.nl
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1 Preparation 41.1 Center distances of the tubes 41.2 Laying patterns 41.3 Points of attention 51.4 Mounting systems 51.5 Screeds and flooring 7 2 Installation 82.1 Tacker insulation plates 82.2 Castellated insulation plates 92.3 DryFloor dry build installation 102.4 TubeMat thin system 112.5 SlimFit floor and wall system 12
3 Manifold 133.1 Location of the manifold 133.2 Mounting the manifold 133.3 Connecting the Tube to the Manifold 133.4 Installation manifold 133.4.1 Basic Steel 143.4.2 Premium Stainless Steel Flow & Premium District 153.4.3 Premium Stainless Steel Open 163.4.4 Composite Open 17
4 Pressuring the system / Testing for leaks 184.1.1 System filling from CV 184.1.2 System filling from tap 184.1.3 System extort air 184.2 System Commissioning 184.2.1 High temperature manifold with pump 184.2.2 Low temperature manifold (open manifold units) 19
5 System control 205.1 Control by MAGNUM Remote Zone Control 205.2 Control by (existing) room thermostat 215.3 Note on use underfloor and wall heating 21
6 MAGNUM Remote Zone Control system 22 6.1 MAGNUM W-Thermostat 226.2 MAGNUM W-Controller 236.3 MAGNUM W-Actuator 236.4 MAGNUM Eco pump switch 23
7 Product overview 24
INDEXPagina
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Make sure the room where you install underfloor heating are dry and dust free. Remove any debris and wipe off the entire subfloor securely. Our underfloor heating systems can be permanently incorporated into concrete or sand-cement screeds. In case specified insulation can be applied in the building regulations under construction or on the floor on which the system is laid.
1.1 center distances of the tubes
The most common tube distances are un-derfloor heating systems:
100mm center to centerMain heating with 10m pipe per m2.1 heating Ports per 10 m2.
150mm center to centerMain or extensive back-up (1) by 6.7 meter tube per m2.1 heating Ports per 15 m2.
200mm center to centerAdditional heating with 5 m pipe per m2.1 heating Ports per 20 m2.
(1) The ability to use a center distance of 150 mm in the main heating depends on the heat demand and the insulation value of the relevant space.
1.2 Laying patterns
Featured pattern (cochlea)
For the best results with an underfloor heating system, you must ensure that the total floor area reaches the same temperture with an equal distribution of heat. When laid in the Cochlea pattern, the flow and return pipes are placed side by side; this allows for the heat to be distributed evenly across the entire surface. The water runs through the pipes and the cooled water returns to the manifold.This laying method provides the most econo-mical and energy efficient heating system.
Meander
There are circumstances when laying the pipes in the ‘meander’ pattern can result in a more efficient underfloor heating system. When you lay in this pattern, the flow and return are not placed next to each other, and the floor does not heat up evenly. However, this is the preferred method when the underfloor heating is installed in a cold room with large windows or outer walls.
1. PREPARATION
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Laying the first section of pipe along these areas will result in a even heat across the floor. 1.3 Points of attention
1. For the best results and to avoid problems with circulation, the following maximum pipe length should be adhered too;
- 10mm Pipe Maximum 80m - 14mm Pipe Maximum 100m - 16mm Pipe Maximum 120m - 18mm Pipe Maximum 130m - 20mm Pipe Maximum 150m
2. The above pipe lengths are related to each port on the manifold and the tubes should be connected to one supply and one return valve.
3. In addition, in each Ports there should be a continuous pipe (links in the screed must be avoided at all times) a connection cannot be avoided, use of a repair coupling, or by connecting into the floor, then the coupling should be fully wrapped in a waterproof tape to prevent oxidation and risk of leaks.
4. The aforementioned maximum lengths include supply and return from the manifold.
5. Floor Heating Pipes must not intersect or overlap.
6. In areas that are larger than 40m² or longer than 8 meters, it is often necessary to use expansion joints in the floor. Also, when there is a level difference in the floor, such a joint is usually necessary. When the screed in a large space has a L-shape or U-shape, or for example the room is narrowed, then the floor should be divided into rectangles using expansion joints.
1.4 Mounting systems
Depending on the construction floor on which the system is fitted, under-floor heating can be installed in various ways. This chapter explains step by step how to proceed with the different installation methods.
Tacker insulation panels
The heating pipes are attached in this setup method to 20mm or 30mm thick EPS insula-tion panels. This system is ideal for larger floor areas where the structural floor is not isolated, but also in smaller spaces without floor insulation you can use this method. The tacker insulation panels must be placed over the entire structural floor, the floor heating tubes must be fastened using Tacker staples.
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Castellated plates
The heating tubes are clipped between the studs of EPS insulation boards which are provided with a plastic top layer. The studded plates are placed over the entire construction floor and recorded to each other by placing the outer edges over each other. After the installation, the tubes of the floor heating system will be fastened into the top layer.
DryFloor installation
If you want to install underfloor heating beneath laminate floors or similar flooring which can be placed floating, in areas with limited mounting height or in places where the supporting structure is less strong, you might consider using dryfloor systems. These types of systems include molded EPS insu-lation on which steel or aluminum thermal conductivity profiles are placed. It’s easily fitted using the preset grooves on the floor plates you place the diffuser plates; laminate or wooden flooring can be placed directly over the top. Suitable for all building types & suspended floors, in accordance with the flooring manufacturers recommendations.
TubeMat thin-bed installation 9mm
MAGNUM TubeMat consists of an 8 mm underfloor heating pipe on a fiber network. Once the mat has been rolled out and it is topped with a flexible casting mortar, the system using a manifold or RTL-valve is connected to the existing central heating system. With an installation height of just 9 mm TubeMat is perfectly suited for renovation projects and for areas with limited installation height. The TubeMat can also be used as main heating.
SlimFit thin-bed installation 12mm
With an installation height from 12 mm MAGNUM SlimFit one of the best systems of its kind. Suitable for wall and floor heating.
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This system consists plastic mats (tiles), which are simply snapped together. 10 mm underfloor heating tube is clicked into the mat with the same ease. With the overall height of just 12 mm, this system is ideal for renovation projects. Suitable for wall and floor heating. The SlimFit system is specially designed for installations with a 10 mm tube. The open structure of the tiles ensures perfect adhesion of the screed to the basic floor as on the wall. This system can also be used as main heating.
If the system is used as heating - / cooling system than the mat supported in the wall the stucco and the MAGNUM Slimfit acts as a reinforcement. The MAGNUM Slim Fit system is designed for the 10 mm MAGNUM Tube. It comes in lengths of 80 and 240 meters. The maximum tube length is 80 meters.
1.5 Screeds and flooring
For an efficient and reliable heating system an important role in the screed flooring and play. When a new deposited screed must enclose it completely to the floor heating tubes to make possible rapid thermal motion (heat transfer). In addition, the screed must have a minimum thickness of approximately 7 cm (or 5 cm screed on top of the tubes). This prevents crack formation by means of point load.
When there is not a minimum height 7cm available, then it is advisable to leave the screed attached to the (concrete) subfloor andto arm it by means of reinforcement nets on top of the tubes. As a result, crack formation will be reduced to a minimum.
Underfloor heating systems can be used under almost any type of flooring, but each type of flooring has a different level of heatresistance. Tiles, natural stone and marble(ceramic floor finishes) have low heat resistan-ce and make rapid thermal movement.Usually these types of floor finishes are excellent heat conductors and therefore will ensure that the heating system is optimized.Carpet, wood and laminate have a higher heat resistance and slow down the thermal movement. Please note, these types of floor finishes have a maximum floor temperature of about 28 °C, (You must consult manufacture of the flooring to ensure compatibility and limitations).
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2.1 Installation on tacker
A. Edge insulationB. Floor coveringC. Concrete ScreedD. Tacker ClipsE. Underfloor heating TubeF. Tacker-plateG. Subfloor (construction floor)
1. Place edge insulation along all the walls of the room (s) you are going to install the hea-ting system. When the edge insulation is not provided with an adhesive strip, fasten it using a mounting kit or spray adhesive.
2. Place the tackerplaten over the entire con-truction floor and place them side by side. If necessary, attach the plates using tape or dock them using a mounting kit or adhesive to the structural floor.
3. Then you start laying the heating pipes. You attach it to the tackerplaten using tackernie-ten and nailer-stapler. Takes into an average of three staples of per meter pipe so that the pipe (especially in corners) will not shift when pouring the screed.
2. INSTALLATION
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2.2 Installation on castellated insulation plates
A. Edge insulationB. Floor coveringC. Concrete ScreedD. Underfloor heating TubeE. Castellated insulation plates F. Subfloor (construction floor)
1. Place edge insulation along all the walls of the room (s) you are going to install the hea-ting system. When the edge insulation is not provided with an adhesive strip, fasten it using a mounting kit or spray adhesive.
2. Place the studded panels across the con-truction floor and place them side by side.To turn to slide the studded plates attached to each other by the outer plastic studs of the plates over each other. If necessary, the plates by means of a mounting kit or - securing adhesive to the structural floor.
3. Then you start laying the heating pipes. You attach it between the studs by pushing / clamp it.
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2.3 DryFloor dry-build installation
A. Floor finish² B. Heat distribute system (Omega profiles)C. Floorheating tubeD. Dryfloor insulation plateE. Floor Bars (only in certain situations)F. Subfloor (construction floor)
² A tile floor (or other flooring that requires a structural subfloor) can not be placed directly over the system. When you choose such a floor finish there first need to be placed floorboards on the system (eg Fermacell- or Knauf Records). Once these plates are applied, you can place the decking.
1. Place the EPS insulation over the entire structure of the floor area (s) in which the sys-tem will be installed. If required you can attach the insulation boards to the subfloor using a mounting kit or spray adhesive (please keep in mind that the plates can not be moved when they are attached).
2. Fasten the omega profiles on the insulation by pushing it into the corresponding slots.
3. After the profiles are pressed down on the EPS boards, click the tube between the profiles.
4. Flooring that can be placed floating, can be applied directly on the system (unless other information is given in the specifications of the floor supplier). Please note that it is advisa-ble to establish floating flooring perpendicular to the system to create a more stable surface.
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2.4 TubeMat thin-bed system
The TubeMat 180 can be folded by cutting through the fiber network without the heating pipe. This can be repeated several times. For good adhesion to the subfloor you can apply a layer of tile adhesive before placing the TubeMat
After applying the adhestive, the entire system must be covered with plates. This method prevents the system from floating when the screed is applied.
After a drying period, the plates can be removed. Once the mat has been rolled out and it is covered with a flexible casting mortar, the system is connected using a manifold or RTL-valve on the existing heating system.
RTL-valveThis temperature control can be used for a combination of radiators and floor heating for small surfaces, for example bathrooms and kit-chens. This arrangement consists a maximum of a limiter which will be placed in the return tube of heating Ports.
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2.5 SlimFit
Length x width 800 x 600 mmSurface 0,48 m² SlimFit component 200 x 200 mmThickness 12 mmTotal building height 15-20 mm Tube Ø 10,0 mm
Center to center size 100 mmMax. tubelength per Ports 80 mMax. surface per Ports 8 m²
Securely attach the system to the under the floor in order to prevent it from “float”. Depen-ding on the surface, you can fix the system with dowels or nails. Drill size: Ø 5 mm. Started diameter plug: Ø 5 mm.
Floor laying pattern: Cochlea Pattern.Laying pattern wall: Attach the tubing to the top of the wall and follow a meander pattern down the wall.
Read the accounting treatment of the self-leveling casting or plaster mortar, make sure the product is suitable for floor heating and follow the manufacturer’s instructions. Notify
for enabling the system that you have sufficient drying time.
In floor heating systems distinguish between high- and low-temperature systems where the principle of heating remains the same. The dif-ference is in the temperature of the supplied water which the system uses.
At low temperature systems is commonly used open dividers where the inlet water directly from the heat source is left on the floor. At high temperature systems (district heating) inlet water is mixed down before it is left in the ground because it is too hot to leave the floor immediately. In most cases, the maximum temperature is about 40 °C for ceramic flooring and about 28 °C for wooden decking (check in case of doubt, consult your floor supplier).
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3.1 Location of the manifold
An underfloor heating manifold can be placed at home in almost any location, placement is not allowed in meter cupboard. It is recom-mended to place the manifold in a dry, centrally located space. If you are using a high tempera-ture manifold which is equipped with a pump, it is advisable to place it near or against the wall of a bedroom. When the pump is opera-ting, this could lead to slight vibration sound. We advice to hang the manifold in a place that is easily accessible as it may be necessary for maintenance work in the future.
3.2 Fastening the manifold
In most cases, the manifold is hang up 50 to 60 cm above the floor. You can also choose to hang the manifold lower, but this makes it more difficult to connect the tube and also may create a problem if the manifold should be replaced ever.
3.3 Tubes mounted on the manifold
Cut the tubes to measure under a perfect angle of 90º using a pipe cutter before being connected to the manifold to prevent leakage.
The underfloor heating pipes are mounted using Eurokonus couplings on the distributor. This clamping couplings consist 3 parts, and are connected in the following manner;
Tube | Screw fitting (A) | Clamping ring (B) | Tule (C)
1. Slide A over the end of the tube.2. Slide B at the end of the tube.3. Press C firmly into the opening of the tube.4. Slide A over B & C and tighten the pipe con-nection of the manifold. Tighten the coupling using a wrench until it is firmly attached (never tighten too tight, because the screw fitting can tear).
3.4 Installation manifold
On the following pages you can find a manifold of which parts it exists and how it should be connected to the circuit.
3. MANIFOLD
90º
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3.4.1 Basic Steel
A. Supply pipe (central)B. Return pipeC. Thermostat buttonD. Temperature sensorE. Temperature meterF. A-Label PumpG. Thermostatic Ports valvesH. MAGNUM Supply TubeI. MAGNUM Return Tube
ABC
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E
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D
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3.4.2 Premium Stainless Steel Flow & Premium Stainless Steel District
A. Supply pipe (central)B. Return pipeC. Thermostat buttonD. Temperature sensorE. Temperature meter F. A-Label PumpG.Thermostatic Ports valvesH. FlowmeterI. Automatic air vent valve
J. FillnippleK. Supply MAGNUM Tube L. Return MAGNUM Tube
A B
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F E
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B
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G H
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Premium Stainless Steel Flow
Premium Stainless Steel District
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3.4.3 Premium Stainless Steel Open
A
B
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A. Supply pipe (central)B. Return pipeC. FlowmeterD. Thermostatic Ports valvesE. Automatic air vent valveF. Fill nippleG. MAGNUM Supply TubeH. MAGNUM Return TubeI. Ball valve
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I
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3.4.4 Composite Open
A
B
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A. Supply pipe (central)B. Return pipeC. FlowmeterD. Thermostatic Ports valvesE. Automatic air vent valveF. Fill nippleG. MAGNUM Supply TubeH. MAGNUM Return Tube I. Temperature meter
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Once all the tubes are connected to the manifold, you can set pressure on the system / or test for leaks;
4.1.1 Direct filling from (existing) Heating circuit:
In this case, follow the following steps (be sure the boiler is disconnected);
1. Open manifold: open the ball valve.Manifold with pump: open thermostatic valve in the supply of the manifold by removing the sealing cap or thermostat control.
2. Open the flowmeter and sealing cap or thermostatic valve Ports of the first Ports that you are going to fill. Once this Ports is comple-tely filled, close the flowmeter and sealing cap or thermostatic valve again.
Pay attention! Other types of manifolds may be assembled with jacks on a different place. In case of doubt, read the manual supplied with the manifold.
4.1.2 Filling from water tap:
If you can not fill the heating system from a heating circuit, you can fill the system through the nipple on the manifold;
In this case, the ball valves and thermostatic valve (as mentioned in step 1) keeps closed.
You can open after the connection of a water hose, the filling die by making use of the recess in the afsluitcap.?
Next, fill the heating Ports(s) as mentioned in Step 2. It is recommended to rotate the pump carefully while filling.
4.1.3 System extort air:
When there is a risk that the space, which floor heating has been installed, it can cool down to the freezing point then presses down the system with air. In this case proceed as follows:
1. Open distributors: Close the ball valves.By distributors with pump: Close the thermo-static valves in the flow and the ball valve in the return of the distributor.
2. Open all flow meters and sealing caps or the thermostatic valve Ports.
3. Connect a compressor to the filling valve and open it by using the recess in the closing valve. Test the system on air density with thecompressor connected (up to 4 bar).
4.2 Using the system
In relation to the the hardening of the floor, the floor may only be used after a period of; at least four weeks if the flooring is glued or at least 8 weeks if a new screed is applied.
4.2.1 High temperature manifold with pump
After the screed and/or decking is fully cured, follow the following steps;
1. Insert the plug of the pump into the wall socket and make sure the valves of the heating Portss are open (If the distributor is equipped with flow meters, make sure that they are open by pulling the red protective cap upwards and the black adjustment wheel rotating at the bottom).
4. PRESSURING THE SYSTEM / TESTING FOR LEAKS
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2. Make sure the pump is operating and turn it into the desired position. For this you can use the following directive;
• Position 1: Manifolds untill 4 ports• Position 2 : Manifolds from 5 untill 9 ports• Position 3 : Manifolds with 10 ports or more
With the Grundfos ALPHA2 L you can use besides the above mentioned positions, the following settings:
A: Lowest constant-pressure curve for manifolds untill 7 portsB: Highest constant-pressure curve for manifolds with eight or more ports
By using these settings, the pump will automatically adjust the activity to the heat demand.
3. The water temperature of the heating system can be set on a thermostat which is mounted on the valve in the supply of the manifold and then read on the thermometer or thermocouple / manometer.
4. In order to avoid that cracks will appear in the screed, it is advisable to increase the water temperature step by step when your using the system for the first time.Start with 2 days at 10 degrees, then for 2 days at 15 degrees, and then at 20 degrees How to set the temperature in by in order to increase the two days the thermostat button on 5 de-grees to the temperature on the thermometer indicates about 35 to 40 degrees.
4.2.2 Low temperature manifold (open manifold units)
After the screed and / or decking is fully cured, perform the following actions;
1. Ensure that the heat source (for example a low temperature boiler or heat pump) has been correctly connected and commissioned.Check the manual of your boiler or heat pump to see how you can configure the temperature of the heater or please ask your installer.
2. In order to avoid that cracks will appear in the screed, it is advisable to increase the water temperature step by step when your using the system for the first time.
Start with 2 days at 10 degrees, then for 2 days at 15 degrees, and then at 20 degrees How to set the temperature in by in order to increase the two days the thermostat button on 5 de-grees to the temperature on the thermometer indicates about 35 to 40 degrees.
3. Open the ball valves in the supply and return of the circuit distributor manifold and make sure that the valves of the heating Portss are also open (when the distributor is equip-ped with flow meters, make sure that they are open by pulling the red protective cap upwards and rotating the black adjustment wheel at the bottom).
4. Make sure the pump of the heat source is running correctly and that there is a circulati-on of water (both in the primary circuit as the underfloor heating system).
POWER ON
3 2 1 A B
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5. SYSTEM CONTROL
Just like wall mounted radiators, the water-based floor heating maintained at one temperature by supply of hot water from a boiler or other heat source in the primary heating circuit. In most cases, the boiler is controlled by a thermostat, which is placed in the living room. When under floor heating is installed in different rooms, it is also possible to place in every room a thermostat which (wireless) is in connection with a receiver, which activates the different heating Ports. In addition, floor heating can also be used as an additional heating in a room which also heated by radiators. To ensure that the floor heats up sufficiently, there are some things you should consider.
5.1 Remote Control by MAGNUM Zone Control (Page 22)
When multiple rooms are heated by un-derfloor heating and not all spaces should be the same temperature, you can choose to use a zone control. With this type of readjustment, different spaces are provided with a thermo-stat that allows you to set the desired tempe-rature. Our MAGNUM W thermostats controls a wireless receiver (MAGNUM W-controller), which controls thermal motors (actuators MAGNUM) which controls the different under floor heating Portss. Because the Portss can be opened and closed independently of each other, it is possible to achieve different room temperatures. MAGNUM W controller is equipped with a volt-free contact or a contact boiler, so the boiler can be activated in for heat from one or more thermostats.
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5.2 Controlled by an (existing) room thermostat
When underfloor heating is used as the only and / or primary heat source, you can set the room thermostat and program the desired area temperature. In this case, the room ther-mostat will turn on the boiler when there is a heat demand.
Through the supply of hot water from the boiler, the underfloor heating distributor will heat the pipes of the system until the desired room temperature is reached.
However, it is advisable not to use day/night switching of more than about 2 degrees with underfloor heating, because this type of he-ating system will heat up a room less quickly than for example wall radiators.
If the desired room temperature is 20 degrees Celsius when using the room, make sure that the temperature does not fall below 18 degrees Celsius in the absence. You can also choose to maintain the same temperature continuously, because an underfloor heating system is more energy efficient when a room has to be kept at the same temperature than when a room has to be reheated again and again because of large temperature differen-ces between day and night, for example.
5.3 A note on use underfloor and wall heating
When floor heating serves as a back-up (for example, to take away a cold floor) or when heating is used in situations where the room thermostat is installed, is heated by radiators, then it is important to mitigate as much as possible the heat generated by the radiators in order to give the floor heating system, the time to warm up. Room thermostats are desig-ned to turn on the boiler when an area is no longer on the set temperature. This does not take into account the way in which the space is heated.
When present radiators are equipped with thermostatic valves, set the temperature 3 degrees lower than the desired room tempe-rature (for example 21-3 = 18 degrees). When you don’t, your heating system will not be hot enough because the heating area warms up so quickly that the boiler stops the supply of hot water before the floor is heated.If the radiators are not equipped with ther-mostats (or are equipped with buttons with a thermostat setting of 1 to 5), you can manually override. This may vary from situation.
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MAGNUM Zone Remote Control is a complete system to control your heating. The system consists thermostats which can be hung in every room and a controller that will be mounted at the manifold. Advanced Actuators get signals through the controller whether they should open or close according to temperature demand. Control zones separate by using your tablet or smartphone. It allows you to program the different zones in your home with ease.
• Wireless control by thermostat, PC, tablet or smartphone
• Heating and cooling mode• To set 8 zones• Make easy zones together• To connect up to 32 actuators• LAN connection• Pump control function• Self-modulating• Adjusted weekly program• Bus connection for Smart Home
functionality• Room / floor sensor function
6. MAGNUM REMOTE ZONE CONTROL
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6.1 MAGNUM W-Thermostat
MAGNUM W-clock thermostat provides precise control of room temperature. With this thermostat you can adjust the temperature based on a series of programmed settings that take effect at different times of the day. The thermostat wirelessly communicates with the MAGNUM W controller and provides a signal of a change in temperature.
6.2 MAGNUM W-Controller
MAGNUM W Controller receiver is designed to control the temperature of heating systems through the “normally closed” actuators. Each receiver can control up to 8 zones and extended as required.
6.3 MAGNUM W-Actuators
These electro-thermal actuators may be used for the automatic control of the shut-off valves. When the actuators are mounted on the cranes, they automatically shut off the water from the boiler. As soon as there is a heat demand of the heating system, the thermostat, which is in communication with the receiver, sends a signal for the actuators to open the valves. When the correct temperature is reached, they close the shut-off valves again.
6.4 MAGNUM Eco Pump Switch
This automatic pump switch will turn on the circulation pump of the heating if the temperature of the heating water is higher than the temperature setting and turn off when it is below the programmed temperature. This ensures that the pump is not switched on 24 hours a day and this can save significantly on energy costs.
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MAGNUM Tube | PE-RT Floorheating TubePart.no. Description LengthW10080 MAGNUM Tube Floorheating Tube PE-RT 10 x 1,3 80 mW10240 MAGNUM Tube Floorheating Tube PE-RT 10 x 1,3 240 mW14100 MAGNUM Tube Floorheating Tube PE-RT 14 x 2 100 mW14120 MAGNUM Tube Floorheating Tube PE-RT 14 x 2 120 mW14240 MAGNUM Tube Floorheating Tube PE-RT 14 x 2 240 mW14600 MAGNUM Tube Floorheating Tube PE-RT 14 x 2 600 mW16090 MAGNUM Tube Floorheating Tube PE-RT 16 x 2 90 mW16120 MAGNUM Tube Floorheating Tube PE-RT 16 x 2 120 mW16240 MAGNUM Tube Floorheating Tube PE-RT 16 x 2 240 mW16600 MAGNUM Tube Floorheating Tube PE-RT 16 x 2 600 mW18120 MAGNUM Tube Floorheating Tube PE-RT 18 x 2 130 mW18240 MAGNUM Tube Floorheating Tube PE-RT 18 x 2 260 mW18500 MAGNUM Tube Floorheating Tube PE-RT 18 x 2 520 mW20120 MAGNUM Tube Floorheating Tube PE-RT 20 x 2 120 mW20240 MAGNUM Tube Floorheating Tube PE-RT 20 x 2 240 mW20500 MAGNUM Tube Floorheating Tube PE-RT 20 x 2 500 m
Part.no. Description DimensionsW40001 MAGNUM Basic Steel 1 Port incl. ALPHA2 L 190 x 390 x 145 mmW40002 MAGNUM Basic Steel 2 Ports incl. ALPHA2 L 190 x 390 x 145 mmW40003 MAGNUM Basic Steel 3 Ports incl. ALPHA2 L 245 x 390 x 145 mmW40004 MAGNUM Basic Steel 4 Ports incl. ALPHA2 L 300 x 390 x 145 mmW40005 MAGNUM Basic Steel 5 Ports incl. ALPHA2 L 355 x 390 x 145 mmW40006 MAGNUM Basic Steel 6 Ports incl. ALPHA2 L 410 x 390 x 145 mmW40007 MAGNUM Basic Steel 7 Ports incl. ALPHA2 L 465 x 390 x 145 mmW40008 MAGNUM Basic Steel 8 Ports incl. ALPHA2 L 520 x 390 x 145 mmW40009 MAGNUM Basic Steel 9 Ports incl. ALPHA2 L 575 x 390 x 145 mmW40010 MAGNUM Basic Steel 10 Ports incl. ALPHA2 L 630 x 390 x 145 mm
MAGNUM Basic-Steel Manifold
MAGNUM Premium Stainless Steel-Flow ManifoldPart.no. Description DimensionsW30001 MAGNUM Premium Stainless Steel-Flow 1 Port incl. 395 x 200 x 150 mmW30002 MAGNUM Premium Stainless Steel-Flow 2 Ports incl. 395 x 200 x 150 mmW30003 MAGNUM Premium Stainless Steel-Flow 3 Ports incl. 450 x 200 x 150 mmW30004 MAGNUM Premium Stainless Steel-Flow 4 Ports incl. 505 x 200 x 150 mmW30005 MAGNUM Premium Stainless Steel-Flow 5 Ports incl. 560 x 200 x 150 mmW30006 MAGNUM Premium Stainless Steel-Flow 6 Ports incl. 615 x 200 x 150 mmW30007 MAGNUM Premium Stainless Steel-Flow 7 Ports incl. 670 x 200 x 150 mmW30008 MAGNUM Premium Stainless Steel-Flow 8 Ports incl. 725 x 200 x 150 mmW30009 MAGNUM Premium Stainless Steel-Flow 9 Ports incl. 780 x 200 x 150 mmW30010 MAGNUM Premium Stainless Steel-Flow 10 Ports incl. 835 x 200 x 150 mmW30011 MAGNUM Premium Stainless Steel-Flow 11 Ports incl. 890 x 200 x 150 mmW30012 MAGNUM Premium Stainless Steel-Flow 12 Ports incl. 945 x 200 x 150 mmW30013 MAGNUM Premium Stainless Steel-Flow 13 Ports incl. 1000 x 200 x 150 mmW30014 MAGNUM Premium Stainless Steel-Flow 14 Ports incl. 1055 x 200 x 150 mmW30015 MAGNUM Premium Stainless Steel-Flow 15 Ports incl. 1110 x 200 x 150 mm
7. PRODUCT OVERVIEW
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MAGNUM Premium Stainless Steel-Disctrict ManifoldPart.no. Description DimensionsW31001 MAGNUM Premium Stainless Steel-District 1 Port incl. 395 x 200 x 150 mmW31002 MAGNUM Premium Stainless Steel-District 2 Ports incl. 395 x 200 x 150 mmW31003 MAGNUM Premium Stainless Steel-District 3 Ports incl. 395 x 200 x 150 mmW31004 MAGNUM Premium Stainless Steel-District 4 Ports incl. 450 x 200 x 150 mmW31005 MAGNUM Premium Stainless Steel-District 5 Ports incl. 505 x 200 x 150 mmW31006 MAGNUM Premium Stainless Steel-District 6 Ports incl. 560 x 200 x 150 mmW31007 MAGNUM Premium Stainless Steel-District 7 Ports incl. 615 x 200 x 150 mmW31008 MAGNUM Premium Stainless Steel-District 8 Ports incl. 670 x 200 x 150 mmW31009 MAGNUM Premium Stainless Steel-District 9 Ports incl. 725 x 200 x 150 mmW31010 MAGNUM Premium Stainless Steel-District 10 Ports incl. 780 x 200 x 150 mm
Part.no. Description DimensionsW32002 MAGNUM Premium Stainless Steel-Open LT 2 Ports 240 x 365 x 100 mmW32003 MAGNUM Premium Stainless Steel-Open LT 3 Ports 295 x 365 x 100 mmW32004 MAGNUM Premium Stainless Steel-Open LT 4 Ports 350 x 365 x 100 mmW32005 MAGNUM Premium Stainless Steel-Open LT 5 Ports 405 x 365 x 100 mmW32006 MAGNUM Premium Stainless Steel-Open LT 6 Ports 460 x 365 x 100 mmW32007 MAGNUM Premium Stainless Steel-Open LT 7 Ports 515 x 365 x 100 mmW32008 MAGNUM Premium Stainless Steel-Open LT 8 Ports 570 x 365 x 100 mmW32009 MAGNUM Premium Stainless Steel-Open LT 9 Ports 625 x 365 x 100 mmW32010 MAGNUM Premium Stainless Steel-Open LT 10 Ports 680 x 365 x 100 mmW32011 MAGNUM Premium Stainless Steel-Open LT 11 Ports 735 x 365 x 100 mmW32012 MAGNUM Premium Stainless Steel-Open LT 12 Ports 790 x 365 x 100 mmW32013 MAGNUM Premium Stainless Steel-Open LT 13 Ports 845 x 365 x 100 mmW32014 MAGNUM Premium Stainless Steel-Open LT 14 Ports 900 x 365 x 100 mmW90000 MAGNUM Pump/temperature controller incl ALPHA2 L pump Auto L pump
MAGNUM Premium Stainless Steel-Open LT Manifold
Part.no. Description DimensionsW50002 MAGNUM Premium Composite-Open LT 2 Ports 265 x 375 x 125 mmW50003 MAGNUM Premium Composite-Open LT 3 Ports 320 x 375 x 125 mmW50004 MAGNUM Premium Composite-Open LT 4 Ports 375 x 375 x 125 mmW50005 MAGNUM Premium Composite-Open LT 5 Ports 430 x 375 x 125 mmW50006 MAGNUM Premium Composite-Open LT 6 Ports 485 x 375 x 125 mmW50007 MAGNUM Premium Composite-Open LT 7 Ports 540 x 375 x 125 mmW50008 MAGNUM Premium Composite-Open LT 8 Ports 595 x 375 x 125 mmW50009 MAGNUM Premium Composite-Open LT 9 Ports 650 x 375 x 125 mmW50010 MAGNUM Premium Composite-Open LT 10 Ports 705 x 375 x 125 mmW50011 MAGNUM Premium Composite-Open LT 11 Ports 760 x 375 x 125 mmW50012 MAGNUM Premium Composite-Open LT 12 Ports 815 x 375 x 125 mmW50013 MAGNUM Premium Composite-Open LT 13 Ports 870 x 375 x 125 mmW50014 MAGNUM Premium Composite-Open LT 14 Ports 925 x 375 x 125 mmW90000 MAGNUM Pump/temperatuurregelaar incl. ALPHA2 L Auto L pump
MAGNUM Premium Composite-Open LT Manifold
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Part.no. DescriptionW90010 Adaptor / Eurokonus 10 x 1,3 x 3/4”W90014 Adaptor / Eurokonus 14 x 2 x 3/4”W90016 Adaptor / Eurokonus 16 x 2 x 3/4”W90018 Adaptor / Eurokonus 18 x 2 x 3/4”W90020 Adaptor / Eurokonus 20 x 2 x 3/4”
MAGNUM Adaptor / Eurokonus Fittings
Part.no. Description DimensionsW60030 MAGNUM TubeMat 3m², 8mm PE-RT tube on mat 6 x 0,5 mW80004 RTL Return Temperature Limiter W80005 RTL Return temperature limiter in wall mounting boxW80006 RTL + room thermostat valve in wall mounting boxW90801 PUSH connection kit for 1x TubeMat 8 mmW90802 PUSH connection kit for 2x TubeMat 8 mmW90803 PUSH connection kit for 3x TubeMat 8 mmW90804 PUSH connection kit for 4x TubeMat 8 mmW90001 MAGNUM 1-Ports manifold with ALPHA2 L pump
MAGNUM TubeMat system (9mm)
Part.no. Description DimensionsW61024 MAGNUM SlimFit system 2,4 m² 5 pcs 60 x 80 cmW10080 MAGNUM Tube PE-RT 10 x 1,3 80 mW10240 MAGNUM Tube PE-RT 10 x 1,3 240 mW90010 Adaptor/Eurokonus 10 x 1,3 x 3/4”W91001 PUSH Connection Kit for 80 m 10mmW91002 PUSH Connection Kit for 2x 80 m 10mmW91003 PUSH Connection Kit for 3x 80 m 10mmW91004 PUSH Connection Kit for 4x 80 m 10mmW90001 MAGNUM 1-Ports manifold with ALPHA2 L pump
MAGNUM SlimFit system (12mm)
MAGNUM DryFloor system (25mm)Part.no. Description DimensionsW62075 MAGNUM DryFloor 25mm 10 pcs/7,5m² 1025x770x25mmW62901 MAGNUM Aluminum Omega-profile for 14mm tube 1000x120x0,4mmW14100 MAGNUM Tube PE-RT 14 x 2 100 mW14120 MAGNUM Tube PE-RT 14 x 2 120 mW14240 MAGNUM Tube PE-RT 14 x 2 240 mW14600 MAGNUM Tube PE-RT 14 x 2 600 mW90014 Adaptor / Eurokonus 14x2x3/4”W90001 MAGNUM 1-Ports manifold with ALPHA2 L pump
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Part.no. Description DimensionsW90116 MAGNUM Castellated Plates Uninsulated 17mm for 10m² 1 x 1mW90108 MAGNUM Castellated Plates Uninsulated 17mm for 30m² 1 x 1mW90117 MAGNUM Castellated Plates 28mm (11mm EPS) for 10m² 1 x 1mW90109 MAGNUM Castellated Plates 28mm (11mm EPS) for 20m² 1 x 1mW90110 MAGNUM Castellated Plates 47mm (30mm EPS) for 10m² 1 x 1m
MAGNUM Castellated plates system
Part.no. Description DimensionsW90102 MAGNUM Tacker-Rasterfoil 50m² 50m x 1mW90103 MAGNUM Tacker Insulation plates 20mm - 30kPa (10m²) 10m x 1m, 20mmW90104 MAGNUM Tacker Isolatie plates 30mm - 30kPa (10m²) 10m x 1m, 30mmW90105 MAGNUM Tacker-Staples 40mm t.bv. (20&30mm Tacker plates)W90106 MAGNUM Tacker-Staples 60mmW90107 MAGNUM Tacker-Stapler
MAGNUM Tacker system
Isolatie & toebehoren Part.no. Description DimensionsW90100 Aluminum Reflective Foil Roll (30m²) 20m x 1,5mW90101 Aluminum Reflective Foil Roll (75m²) 50m x 1,5mW90111 Edge Insulation with strap 25mx11,5cmx8mmW90112 Expansion Profile - Profileset met adhesive strip 5 pcs 2m 10 meter/lW90113 90° Bend support tube size ø 14-17mm 2 pcsW90114 90° Bend support tube size ø 18-20mm 2 pcsW90115 Tubereel / Unwinding device
Part.no. DescriptionW80000 MAGNUM W-T Digital area thermostat, wireless RFW80001 MAGNUM W-C Central 8 Zone Control - App controlW80002 MAGNUM W-R Repeater - Signal amplifierW80003 MAGNUM W-A Actuator / thermomotor 230V NCW80007 MAGNUM Eco Pump Switch
MAGNUM Remote-Zone-Control system
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C&F TechnicsMAGNUM Heating B.V.Slabbecoornweg 414691RZ Tholen
T +31(0)166-609 300F +31(0)166-604 877E [email protected] magnumheating.nl
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