Download the presentation of distribution units Sotis - Unit. Collection module floor with decentralized hydraulic setting and individual accounting (by consumers) Type # 2 - hydraulic arrow
One of the effective options for upgrading the heating system, allowing to make it more productive and reliable, is to install a collector unit. The device that came to replace the traditional designs of the linear structure is designed to increase the convenience of exploiting and maintaining the system.
As a collector for heating and what installation features should be considered, consider in more detail.
Due to this distribution, each element is properly heated with a coolant of equal temperature.
The inner diameter of the collector is determined by the calculation so that the speed of movement of the coolant inside it was not more than 0.7 m / s
Having achieved the battery and giving the heat obtained when heated, the liquid is sent along another pipe in the opposite direction to the distribution unit. There it enters the reverse comb, where it is redirected to the heat generator.
Pipelines of warm floors are collected from copper pipes or their plastic analogs, it is used for compounds.
In the heating rings, the valves are mounted, with which they control the flow of the coolant, and if necessary, turn off the "warm floors" from the general heating network.
The collector for the "warm floor" is a construction that includes a row of tube rings, which is paved under flooring
Such systems always equip. It is located in the intermediate collector node at the inlet in the back direction pipe.
The number of pipes on the distribution node depends on the amount of rooms looped on one comb.
The number of collector groups determine, focusing on the length of the contours. The basis of calculations take the relation in which 120 meters of the pipeline are given to one collector group.
Type # 2 - Hydraulic Arrow
With the arrangement of powerful and branched heating systems, which are designing in residential buildings with a large area, use distribution collectors equipped with thermohydraulic distributor or hydraulic.
When installing the binder, on one side, the contour of the heating boiler is connected to it, and on the other - radiator heating or "warm floors".
(Vt.gpm) The floor assembly is used in water heating systems of apartment buildings for the distribution of thermal energy in individual consumers and accounting for its spending (when installing the heat meter). In addition, the module allows the hydraulic linking of consumers among themselves.
Also, the floor assembly for the consignment of thermal energy allows service operations: air intake, coolant cleaning, drainage and filling system.
The module is attached to the distribution total pipeline of the heating system (rising), the input location is left (L) or right (R). Horizontal apartment-tube and two-pipe heating systems are joined to the node outputs. The diameter of the connection to the rims of heating systems - ¾ or 1.
Maximum coolant temperature - 95 ° C, working pressure - 10 bar.
The node comes in the assembled form, on a separate order, the node can be delivered in a disassembled form, for the subsequent assembly in place. It can also be equipped with heat plates, pressure gauges and automatic air vent. The assembled nodes are pressed with a test pressure of 15 bar.
As associated goods for the VT.GPM node, a set of pressure gauges VT.GP.31 is offered, automatic air vents VT.GPM.41 ,.
To make an application for a complete set and supply of a standard / non-standard flood collector node, you must fill out the order form.
Floor nodes Valtec are produced by the Russian production of Vesta Regions LLC.
Russia, 142100, Moscow region, Podolsk, ul. Sverdlova, 30, Corp. one.
vendor code | Size / number | Unit price |
---|---|---|
Art. | Once. / Count | Price |
Vt.gpm.05s04.l2. | 3/4 ", 2 out., Entering the left | 12318 P. |
Vt.gpm.06s04.l2. | 1 ", 2 out., Entering the left | 14198 P. |
Vt.gpm.05s04.l3 | 3/4 ", 3 out., Entering the left | 14671 P. |
Vt.gpm.06s04.l3 | 1 ", 3 out., Entering the left | 16550 P. |
Vt.gpm.05s04.l4 | 3/4 ", 4 out., Entering the left | 17547 P. |
Vt.gpm.06s04.l4 | 1 ", 4 out., Entering the left | 19427 P. |
Vt.gpm.05s04.l5 | 3/4 ", 5 out., Entering the left | 20279 P. |
Vt.gpm.06s04.l5 | 1 ", 5 out., Entering the left | 22158 P. |
Vt.gpm.05s04.l6. | 3/4 ", 6 out., Entering the left | 23113 P. |
Vt.gpm.06s04.l6 | 1 ", 6 out., Entering the left | 24993 P. |
Vt.gpm.05s04.l7 | 3/4 ", 7 out., Entering the left | 25799 P. |
Vt.gpm.06s04.l7. | 1 ", 7th., Entering the left | 27678 P. |
Vt.gpm.05s04.l8. | 3/4 ", 8 out., Entering the left | 28665 P. |
Vt.gpm.06s04.l8. | 1 ", 8th., Entering the left | 30544 P. |
Vt.gpm.05s04.r2. | 3/4 ", 2 out., Entering right | 12318 P. |
Vt.gpm.06s04.r2 | 1 ", 2 out., Entering right | 14198 P. |
Vt.gpm.05s04.r3 | 3/4 ", 3 out., Entering right | 14671 P. |
Vt.gpm.06s04.r3 | 1 ", 3 out., Entering right | 16550 P. |
Vt.gpm.05s04.r4 | 3/4 ", 4 out., Entering right | 17547 P. |
Vt.gpm.06s04.r4 | 1 ", 4 out., Entering right | 19427 P. |
Vt.gpm.05s04.r5 | 3/4 ", 5 out., Entering right | 20279 P. |
Vt.gpm.06s04.r5 | 1 ", 5 out., Entering right | 22158 P. |
Vt.gpm.05s04.r6 | 3/4 ", 6 out., Entering right | 23113 P. |
Vt.gpm.06s04.r6 | 1 ", 6th., Entering the right | 24993 P. |
Vt.gpm.05s04.r7 | 3/4 ", 7 out., Entering right | 25799 P. |
Vt.gpm.06s04.r7 | 1 ", 7 out., Entering right | 27678 P. |
Vt.gpm.05s04.r8. | 3/4 ", 8 out., Entering right | 28665 P. |
Vt.gpm.06s04.r8 | 1 ", 8th., Entering the right | 30544 P. |