One of the effective options for modernization of the heating system, allowing to make it more productive and reliable, is to install a collector block. The device, which replaced the traditional constructions of the linear structure, is designed to increase the ease of use and maintainability of the system.
How the collector for heating functions and what installation features should be considered, we will consider in more detail.
Principle of operation of the distributor
The main purpose of the distribution manifold is to evenly distribute the heat flows coming from the main line along the system circuits and return the cooled liquid to the boiler due to the circulation circulation.
At the same time, individual branches of the system connected to the collector become independent of each other.
The device is an intermediate distribution unit, the key elements of which are two interconnected parts:
- feed comb - is responsible for the supply of coolant;
- reverse - performs the function of removing the cooled coolant to the heat generator.
Together they form a collector group. Several leads depart from each comb for connecting circuits leading to heating appliances.
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Collector in the heating system
Factory-made manifold
Distribution comb made of PP pipes
House wiring
Collector assembly components
Two-pipe manifold combination
Technical equipment of beam schemes
Deslamators and ball valves
Each terminal of the device can be equipped with exhaust valves and a shut-off or control valve.
Their presence makes it possible to adjust the pressure inside each circuit and, if necessary, disconnect the branches for repair, for example, block the flow of coolant.
To increase system performance and to be able to control all heating processes in each room of a heated house, the distribution comb housing is also used as a platform for installation:
- air exhaust valves;
- spillway valves;
- flow meters;
- heat meters.
The principle of the collector system is quite simple. The liquid preheated by the heat generator enters the feed comb.
Inside the intermediate assembly, the fluid velocity slows down due to the increased internal diameter of the device, it is redistributed between all outlets.
The number of conclusions on the distributor can be any, and if necessary, the design can always be increased by additional taps
Knowing the flow rate of the coolant equal to the power of the heat generator, and the speed of the water, it is not difficult to find the required cross-sectional area. Only previously should liters be transferred to a unit of mm convenient for calculations3.
Through connecting pipes, the cross section of which is less than the diameter of the pipe of the collector assembly, the coolant enters the separately laid circuits and moves to radiators or to the underfloor heating meshes.
Due to this distribution, each element is properly warmed up, supplied with a coolant of equal temperature.
The inner diameter of the collector is determined by calculation so that the speed of movement of the coolant inside it is not more than 0.7 m / s
Having reached the battery and giving up the heat obtained by heating, the liquid is directed through another pipe in the opposite direction to the distribution block. There she goes to the return comb, from where she is redirected to the heat generator.
For a country cottage, a system using a collector is considered to be the most effective and reliable.
The only thing that can stop a zealous owner is cost. After all, the arrangement of such a system will cost more than the device of a conventional tee-type system.
Such a constructive solution, involving the arrangement of individual supply pipes, creates conditions for uniform heating of radiators
Types of collectors in heating systems
The collector systems used in the design of closed circulating heating systems come in three varieties.
Depending on the purpose of the structure, the market includes: radiator and solar systems, as well as devices equipped with a hydraulic arrow.
Type # 1 - radiator collector heating
Whatever type of heating is designed in the house, radiators are always present in it. Therefore, collectors that distribute coolant flows directly to the batteries installed in the rooms are the most popular type.
The distribution unit consists of two interconnected combs: the first directs the coolant to the devices installed in the rooms, the second - takes it back to the boiler
The collectors used in radiator heating, depending on the architectural and interior features of the room, can be connected in various ways.
By the method of connection, the radiator heating system can be performed in any of the following options:
- top connection;
- bottom accession;
- side installation;
- keeping diagonally.
The most common is still the lower connection method. With this layout, the contours hidden under the surface of the skirting board or floor are not so striking.
Yes, and calculations confirm that with the lower connection, all the advantages of private heating are fully manifested.
A collector for radiators is equipped on each floor of the house. They install it in the center, masking the device in a niche or in a cabinet specially designed for it on the wall.
The installation location should be chosen so that, as far as possible, branches of equal length are connected to all devices.
If it is impossible to achieve equality of the rings connected to the collector, then each branch is equipped with its own circulation pump.
In fact, all branches connected to the distribution node are an independent circuit with their own shutoff valves, and sometimes automation.
A striking example of a collector heating circuit is water heated floors.
The collector wiring diagram provides a uniform heat supply to all the rings of the “Underfloor heating” water system
Pipelines for underfloor heating are assembled from copper pipes or their plastic counterparts; one-piece fittings are used for connections.
Valves are mounted in the heating rings, with the help of which they regulate the coolant supply, and, if necessary, disconnect the "warm floors" from the common heating network.
The collector for the "warm floor" is a design that includes a series of pipe rings, which is laid under the floor
Such systems are always equipped with a circulation pump. It is placed in an intermediate manifold at the entrance to the pipe in the opposite direction.
The number of nozzles on the distribution unit depends on the number of rooms looped on one comb.
The number of collector groups is determined based on the length of the contours. The calculation is based on the ratio at which 120 meters of the pipeline are allocated to one collector group.
Type # 2 - hydraulic arrow
When equipping powerful and branched heating systems that are designed in residential buildings with a large area, distribution manifolds equipped thermohydraulic dispenser or hydraulic arrow.
When installing the connecting link, on the one hand, a heating boiler circuit is connected to it, and on the other, radiator heating or “warm floors”.
The hydraulic arrow is a vertical hollow pipe equipped with elliptical plugs at the ends, the main purpose of which is to equalize the pressure exerted on the coolant
The presence of a hydraulic distribution arrow allows you to solve several problems at once:
- to avoid sudden temperature changes in the pipes, detrimental to the operational life of the system;
- due to mixing and secondary circulation of a part of the heat carrier, to maintain a constant volume of boiler water, as well as save fuel and electricity;
- if necessary, compensate for the flow deficit in the secondary circuit.
Maintaining temperature balance is achieved due to the fact that the device allows you to separate the hydraulic circuit of the boiler from the secondary circuit.
A manufacturing option for a home-made manifold dispenser equipped with a hydraulic arrow, which is made of a square steel pipe and equipped with fittings
Optimum operation of a system equipped with a hydraulic arrow can be ensured provided that each circuit is equipped with its own circulation pump.
Type # 3 - Solar Collector Installations
Devices of this type are chosen when arranging an autonomous water supply in non-gasified areas where the level of solar radiation is quite high.
Solar powered air combs work through the greenhouse effect, converting sunlight into heat
The design of solar installations is slightly different from traditional analogues. In fact, they are a kind of greenhouse, accumulating solar energy.
The natural circulation of the coolant in them is due to convection flows and under the action of fans attached to the absorbing plate.
The sun-absorbing distributor is a small flat box covered with a black absorbent plate. This heat-absorbing plate also accumulates heat.
The accumulated heat is transferred to the coolant, which may be air or liquid circulating through the pipes.
The main purpose of the solar collector is to direct and redistribute the energy of the luminary to domestic needs and needs
On sale you can come across mobile solar collector systems. Their design is designed so that mirrors and heating elements “monitor” the movement of the sun, so that its energy is absorbed to the maximum.
But due to the high cost of equipment, the use of solar installations as the main source of heating in climate even in the southern regions of our country is unprofitable.
And therefore, they are more involved as an additional source of heat in the arrangement of heating systems using solid fuel and gas boilers.
Distribution Combs Modifications
Today on the equipment market there are many varieties of collectors for heating systems.
Manufacturers offer both connecting links of the simplest design, the design of which does not provide for the availability of auxiliary fittings for regulating equipment, as well as manifold blocks with a complete set of mounted elements.
The collector block, which includes all the necessary functional elements to create the conditions for uninterrupted and high-performance operation of the heating system
Simple devices are brass models with an inch passage of branches equipped with two connecting holes on the sides.
On the return manifold, such devices have plugs, instead of which, in the case of “building up" the system, you can always install additional devices.
Intermediate prefabricated units more complex in design are equipped with ball valves. For each branch, they provide for the installation of shutoff control valves. The expensive expensive models can be equipped with:
- flow meterswhose main purpose is to regulate the flow of coolant in each loop;
- temperature sensorsdesigned to control the temperature of each heater;
- air vent valves automatic type for water discharge;
- electronic valves and mixersaimed at maintaining the programmed temperature.
The number of circuits depending on the connected consumers can vary from 2 to 10 pieces.
Regardless of the complexity and versatility of the equipment, materials resistant to external factors are used in the manufacture of collector block combs
If we take the material of manufacture as a basis, then intermediate prefabricated collectors are:
- Brass - differ in high operational parameters at an affordable price.
- Stainless - steel structures are extremely durable. They can easily withstand high pressure.
- Polypropylene - Models made of polymer materials, although they are not very expensive, are inferior to metal "brothers" in all characteristics.
Models made of metal are treated with anticorrosive compounds and extended with thermal insulation to extend the service life and increase operational parameters.
Separating structures made of polymers are used in the arrangement of systems heated by boilers with power from 13 to 35 kW
Parts of the device can be molded or equipped with collet clamps, allowing connection with metal pipes.
But experts do not recommend choosing combs with collet clamps, since they often “sin” by leaking coolant at the junction of the valve. This is due to the rapid failure of the seal. And replacing it is not always possible.
Collectors are used in single and double pipe heating schemes. In single pipe systems, one comb delivers heated coolant and receives cooled
Good Choices
The main difficulty lies not only in the installation of the collector, but also in the correct choice of equipment.
When choosing a comb model, one should be guided by the following parameters:
- Maximum allowable pressure for this model. It determines the type of material from which the valve can be made.
- Bandwidth of the node.
- The presence of auxiliary devices.
- The number of outlet nozzles of the comb. It must match the number of cooling circuits.
- Possibility of additional connection of elements.
All operational parameters are indicated in the passport to the product.
To equip floor-independent heating circuits equipped with autonomous control, combs must be mounted on each floor of the house.
When choosing and installing floor distributors, they are guided by the parameters of the “subsystem”, which they are called upon to serve.
Thanks to the floor placement of the comb, in case of need, you can always turn off the heating of both several individual appliances and the entire floor
This greatly simplifies the maintenance of the heating system and its repair.
Since the collector block is an expensive pleasure, in order to protect yourself from disappointments when the system quickly exits the system, when choosing a model, you should focus on the products of trusted manufacturers.
You can safely trust such manufacturers as GREENoneTEC, "Rehau", "Soletrol", "Oventrop" and "Meibes". In each series of leading European manufacturers, you can pick up a complete set of necessary additional equipment.
Auxiliary elements and fittings to the collector block must also comply with GOST and TU.
As additional devices for connecting the collector, you may need: 1 - an automatic air vent, 2 - an adapter, 3 - a corner, 4 - a crane, 5 - a bend, 6 - another corner, 7 - pipe outlets
Each of the additional structural elements performs its function:
- automatic air vent - mounted if the unit and radiators are located on the same floor;
- adapter - required when installing an air vent with a diameter of ½ inch, provided that the manifold thread is ьба inch.
- a corner - allows you to connect the pipes and direct the air vent up.
- crane - necessary for connecting to the device a pipe coming from the boiler;
- drivingequipped with a cap nut - will allow, if necessary, to shut off the coolant supply and, unscrewing the cap nut, disconnect the device.
If you intend to connect a water heated floor from the collector, you will additionally need to install a tap for make-up.
To fix the collector to the wall, clamps “planted” on plastic dowels will also be required. When mounting the structure, it is also permissible to use special brackets.
Such designs are convenient in that the upper collector is pushed forward, so that the unit pipes do not interfere with the supply of the pipeline to the lower collector.
Installation and Connection Rules
It is best to choose and install a collector at the design and installation stage of the heating system.
Install such intermediate structures in rooms protected from excessive moisture. Most often, for these purposes, a place is allocated in the corridor, pantry or dressing room.
It is desirable to place the collector block in a metal cabinet specially designed for this purpose, equipped with holes for removing pipes in the side walls
On sale there are overhead and built-in models of metal cabinets. Each model is equipped with a door and stamping on the sides.
In the absence of the ability to install a metal cabinet, they do it easier by fixing the device directly to the wall. A niche for the arrangement of the collector block is placed at a low height relative to the floor.
There is essentially no generally accepted installation instruction for manifold distribution circuits. But there are a number of key points regarding which experts have come to a common denominator:
- The presence of an expansion tank. The volume of the structural element must be at least 10% of the total amount of water in the system.
- Availability of a circulation pump for each installed circuit. Regarding this element, not all experts are unanimous. But still, if you plan to use several independent circuits, for each of them it is worth installing a separate unit.
In front of the circulation pump, an expansion tank is placed on the return flow line. Due to this, it becomes less vulnerable to the turbulence of water flows, often occurring in this place.
If a hydraulic arrow is used, the tank is mounted in front of the main pump, the main task of which is to provide circulation on a small circuit.
The location of the circulation pump is not critical. But, as practice shows, the resource of the device is slightly higher precisely on the "return".
The main thing during installation is to position the shaft horizontally. If this condition is not met, the first bubble of accumulated air will leave the unit without cooling and lubrication.
The process of assembly and connection of the collector system is clearly presented in the video block.
Video guide for sequential assembly of the manifold block:
Video review of the installation and operation of a modular plastic collector:
Distribution unit for “warm floor”:
Properly selected and installed collector wiring guarantees the efficiency and reliability of the heating system.
Due to the small number of joints and tees, the likelihood of leaks of such structures is minimized. Well, the ability to adjust the heating temperature of each heating radiator makes the operation of the heating system particularly comfortable.
If you have the necessary knowledge or have experience connecting a collector heating system, please share it with our readers. You can do this by leaving a comment at the bottom of the article.