Installation of a warm floor collector with your own hands: connection diagram and configuration

In order to keep our houses warm throughout the winter, insulation and heating are essential. Installing a warm floor system is one creative solution that is becoming more and more popular. This gives your home a luxurious touch while also effectively warming it up. The warm floor collector, which serves as the main hub for uniformly dispersing heat throughout your floors, is one essential part of this system.

Although installing a warm floor collector may seem difficult, it is completely doable as a do-it-yourself project with the correct advice. You can take on this project with confidence and enjoy a warm and cozy home if you comprehend the connection diagram and configuration. Let’s get into the specifics of doing a hands-on installation of a warm floor collector.

It’s important to familiarize yourself with the parts of a warm floor system before beginning installation. The system’s central component, the warm floor collector, connects the heating elements to the manifold and enables fine-grained control over temperature distribution. You also need to make sure you have the supplies and tools needed to finish the installation properly on hand.

Let’s now go over the warm floor collector’s configuration and connection diagram. The diagram shows the connections between each part of the system and offers a clear installation procedure flowchart. Knowing the configuration guarantees that everything is connected correctly, averting any future problems.

Now that you have the configuration and connection diagram, it’s time to get your hands dirty and begin the installation. First things first: make sure the location chosen for the warm floor collector is both convenient and suitable for holding the unit. Then, carefully connect each component in accordance with the designated configuration by following the steps shown in the diagram.

It is crucial to test the system after the warm floor collector is installed and connected to make sure everything is operating as it should. Spend some time troubleshooting any problems that may occur to guarantee maximum effectiveness and performance. You can now enjoy the warmth and coziness of your recently installed system throughout your entire house since the warm floor collector is operating.

Installing a warm floor collector is a crucial step in creating a comfortable and efficient living environment when it comes to heating and insulating homes. Connecting various parts is what this process entails in order to guarantee optimal performance and even heating throughout the house. Homeowners can take control of this project by using a hands-on approach and a connection diagram and configuration customized to meet their needs. People can successfully incorporate the warm floor collector into their home heating systems, increasing overall comfort and encouraging energy efficiency, by being aware of the layout and operation of the device.

Why do you need a collector

The collector, also known as the distribution-mixing node, is actually a pipe with holes for the coolant’s input and output. Device functions include controlling the water flow and keeping the system at the proper temperature.

The device’s function is to combine heated water from the boiler with cooled liquid from the return to achieve the proper temperature for heated floors. In fact, the coolant in the boiler typically reaches +90 degrees, which is a high temperature for the gum floor.

It needs +40 to +45 degrees, so a collector is necessary. The system will overheat and eventually fail if the water flows straight into the contours from the heat source.

Furthermore, the lengths of the contours and the amount of thermal energy required vary. Thus, a unique node that distributes hot water flows through the hinges is required between the boiler and the pipeline.

Types and principle of work

The materials used to make collector devices vary: brass, plastic, or stainless steel. Moreover, by kind of valve:

1. With two -way – the design feature is a continuous heating of the coolant. The supply of heated water is constantly carried out, and the locking reinforcement regulates its volume. As a result, the surface warms up evenly, while overheating of the system is not possible. But such a model is not suitable for rooms whose area is more than 200 m2.
2. With three -way – universal equipment recommended for large rooms. The technology is allowed to install with a servo (we offer to find out in more detail all about servo drives) and various automation. The valve is able to create optimal working pressure, adjust the temperature level and the amount of the supply of the coolant.

Kinds

Furthermore, there are four categories of collectors:

1. Simple – locking armature pipe, which has an internal and outer thread. The model is cheap, but there is no function to configure the system. To install such a collector on warm floors, additional elements are required.
2. Equipped with exits from the valve for adjustment, and valves for connecting the contours – a Chinese device. It is not rarely that the design is proceeding, but the repair is not folded, it is enough to change the gasket. The distance between the supply and return pipe does not coincide with European standards, so various devices are required.
3. With regulatory taps and Europeanons – an expensive model. There are no ball valves in it, but there are fittings and tuning valves, they can be installed on them a servo drive that will adjust the temperature in the highway.
4. With flow meters – they are located on the feed pipe of the collector, and on the reverse there are nests for servo drives. Such a device is designed for warm floors having a different length of the contours, the presence of flow meters allows you to adjust the volume of the coolant in each circuit.

Taps for lowering water and air are included with all models.

Principle of operation

Regardless of the type of valve (three- or two-way), the general idea behind the node’s operation is to distribute the water flow through the heating floor’s loops, which are driven by the pump. Each branch’s coolant level is controlled mechanically or automatically by a servo.

The work process looks like this:

1. Heat heated to 60 – 80 degrees is supplied from the source to the comb through the thermostatic valve;
2. The stream of chilled water from the return comes from the distributor;
3. Shut -off valves has a head that adjusts the temperature of the liquid;
4. Two streams mixed are fed into the mixing pump, then water is distributed through pipelines.

The heated water from the source is mixed when the highway coolant’s degree of heating drops to the necessary level; a two- or three-way valve controls this.

A collector cabinet device

A collective cabinet is a design that consists of a collector block and a pump-mixing node.

The pump is what gives the system the liquid that has been diluted to the appropriate level. As she moves through the pipes, the cooler returns to the mixing node and she provides the room with heat.

Balancing valves are used to set the temperature regime and control the amount of waste water that enters the pipes. Closed shut-off valves must be opened in order to provide heat in a small space.

The thermogram that is part of this warm floor collector scheme is in charge of maintaining the system’s temperature. It opens or closes the heated water feed. As soon as the теплоносителя’s поступление прекращает, пидкость движется по свободному байпасу и открывается перепускной клапан.

Temperature adjustment is done manually by strapping the collector using a straightforward technique. A thermostat-equipped servo drive is used to automate the process. The servo receives a signal from the thermostat regarding the room’s temperature. Based on this indication, it opens or closes the reverse manifold’s back, controlling the flow of water across the floor.

The primary metrics that define the pump-mixing node are:

• working condition – the maximum value of 10 bar;
• temperature level – +90 degrees (maximum);
• temperature range – from 20 to 60 degrees.

Collector block

One of the blocks installed in the collector cabinet controls the amount of water that enters and exits the floor.

• product diameter – 1 or 1, 25 inch;
• the number of bages – from 3 to 12;
• pressure (working value) – 10 bar;
• The maximum heating level of the coolant is +100 degrees.

Within the block of collectors Two rows of bypasses are present. The "straight line," on the one hand, controls the hot coolant volume, while the "reverse" line modifies the cooled water.

Proper assembly of a collector for a warm floor

Gathering a purchased factory-made manifold is an easy procedure. Included in the kit:

• Distributor with rotameters, it connects to the feed – has 2 or more bouncers for contours;
• The rowing of the return with thermal cells instead of flowers;
• automatic air vents;
• taps with plugs for the supply and drain of water from the underly floor;
• temperature thermometers at the entrance and output;
• Curtain ball valves and brackets.

The device’s completeness can be altered upon purchase, beginning with the spending limit and the boiler connection method. Installing a distributor with just one thermometer or without rotameters is acceptable, but not with two.

Assembly process

• The collector is fixed on the bracket, this will allow further assembly with great convenience.

• The remaining parts join – the air vent, valve, plugs and control devices.

• Ball valves are mounted on the manifold manifold.

After attaching the device to the wall, the circulation pump and valves need to be fixed.

Installation of a warm floor collector

• Fastener mount in the box. The cabinet is equipped with special guides, they can be moved to the required distance, it depends on the length of the collector. They have fasteners – bolts with which the device is fixed in the box.

• Installation of the pump and valves (two or three -way) is carried out according to the planned scheme. On the feed pipe that comes from the boiler, the valve with a thermogol is first mounted, then the pump is installed on flanges with unit nuts, it should be placed between the valve and the collector. It is impossible to install the pump in front of the locking reinforcement, then the valve will not function, and the water will not go correctly.

Connection of TP to the collector

According to the European Council, a threaded connection must be used to join the warm floor contours to the rowing bunches. Even though the floor hose is 16 mm, the Europeancon typically has a diameter of 17 mm. It will therefore need to be calibrated for this size. Next:

• You need to put on a rug nut on the phone, insert a compressive ring and a stubborn sleeve;

• In manually, connect the end of the hose to the crester of the crest;

• Finally tighten with two keys – one is fixed by the hexagon on the fitting, the other is delayed.

Collector configuration

The precise way the setting is constructed determines the floor work’s quality and service life.

A warm floor collector installation can be a fulfilling project for homeowners trying to raise the comfort and efficiency of their houses. Through careful attention to the connection diagram and configuration steps, you can build a system that provides uniform heating throughout your living area, guaranteeing a comfortable atmosphere come wintertime.

The energy efficiency of installing a warm floor collector is one of its main advantages. You can increase comfort and possibly save money on heating by using radiant heat, which warms objects and surfaces directly instead of heating the air. This is especially helpful in spaces where traditional heating methods might find it difficult to maintain constant temperatures, like those with high ceilings or lots of windows.

Installing a warm floor collector can also help ensure that every corner of your house has enough heating by removing cold spots. This is especially helpful in kitchens and bathrooms, where tile flooring frequently feels cold to the touch. No matter what kind of flooring you have, you can have warmth and comfort throughout your house with a properly installed collector.

Furthermore, for individuals with rudimentary electrical and plumbing knowledge, installing a warm floor collector can be a pretty simple do-it-yourself project. You can save time and money by carefully following the configuration instructions and connection diagram instead of hiring a costly professional installation service.

In summary, installing a warm floor collector has many advantages for homeowners, such as increased comfort, increased energy efficiency, and the possibility of DIY installation. A well-planned and executed installation can result in a heating system that fulfills your requirements and raises your home’s overall satisfaction level.

Video on the topic

Instructions for the installation of the ICMA warm floor collector

UNIBOKS for warm flooring with your own hands [No. 110]

Assembly installation and connection of warm floor circuits