PL68567Y1 - Divider of the heating medium circuits in the radiator and floor heating systems - Google Patents

Description

Pattern description

The subject of the utility model is a heating medium circuit manifold used in radiator and floor heating systems.

A heating medium circuit manifold in central heating systems is known from the Polish description of the utility model No. PL 65591 Y1, consisting at least of a unit including a supply beam and a return beam, connected in series in the boiler's basic heating circuit through a circulation pump. In the through hole of the main feed beam and return beam, a separating insert is detachably seated, constituting a section of a shaft with a circular cross-section with a seal on the entire outer circumference, moreover, within the valve seat and at the same time near the opening of the inlet channel of the insert, there is a disc that moves along the axis of symmetry a shut-off valve located at one end of the valve spindle slidably seated in the valve head, which valve pin, near the opposite opposite end, is supported by a snap ring against the sliding wall of the pre-setting cap bottom, while the opposite end of the sliding valve spindle contacts the movable the control end of the element regulating the flow of the heating medium The opening of the insert inlet channel located within the valve seat on its outer circumference and near its bottom has a cross-sectional height that is smaller than its width and smaller than the diameter of the insert outlet channel, while the insert outlet channel located below the bottom of the valve seat has a cross-section similar to circular. In the known manifold of heating medium circuits with a separating insert in the main channel of the radiator supply beam, the heating medium, firstly flowing through the section of the radiator supply beam, is first lost by supplying subsequent radiator circuits, and additionally, the amount of heating medium flow is limited by the cross section of the main channel of the radiator supply beam. As can be seen from the above, a significantly limited amount of heating medium flows into the floor circuits through the separating insert, which significantly reduces the number of underfloor heating circuits that can be connected and supplied with a reduced amount of heating medium flowing at the outlet from the separating insert embedded in the supply beam.

The heating medium circuit manifold in radiator and floor heating systems, according to the utility model, consists of a connected radiator supply beam with a floor return beam, and a connected floor supply beam with a radiator return beam, and a heating mixer connected in series between the floor return beam and the underfloor supply beam with a pump and a mixing valve, characterized by the fact that the radiator supply beam with the floor return beam are connected with each other through the three-way supply valve, and the floor supply beam with the radiator return beam are connected with each other through the three-way return valve. The radiator supply beam connected to the three-way supply valve is connected to the opposite connection opening and the free flow channel, which then communicates through the second lower connection opening with the boiler supply inlet. On the other side, the floor return beam connected to the three-way supply valve is connected to the opposite connection opening and the regulated flow channel, and through the passage opening of the partition it communicates with the free flow channel and then with the boiler supply conduit. The floor supply beam connected to the three-way return valve is connected to the opposite connection opening and the regulated flow channel, which then communicates through the passage opening of the partition with the boiler return conduit. On the other side, the beam of the radiator return, connected to the three-way return valve, is connected to the opposite connection opening and to the free flow channel connected through the bottom connection opening with the boiler return conduit. In the solution of the heating medium circuit manifold in radiator and floor heating systems, according to the utility model, the heating medium flows through the three-way supply valve directly from the boiler feed line to the radiator supply circuits and to the passage opening in the partition, and then further to the regulated flow channel and to the circuits underfloor heating. In this solution, the number of connected underfloor heating circuits and the amount of the heating medium flowing to them depend on the flow rate of the heating medium set each time in the three-way valve to the flow control channel.

Claims (6)

The object of the utility model is shown in the attached drawing, in which fig. 1 shows the complete distributor in a side view, fig. 2 - the floor supply beam and the radiator return beam connected by a three-way return valve in the view in the "W" direction in Fig. 1, Fig. 3 - a radiator supply beam and a floor return beam connected by a three-way supply valve in the view in the "Y" direction in Fig. 1, Fig. 4 - complete manifold in side view with a return three-way valve in section A-A in Fig. 2 and with a three-way valve in flow in section B-B in Fig. 3, Fig. 5 - the return three-way valve, section A-A in Fig. 2 and Fig. 6 shows a cross-section of the supply three-way valve on the BB line in Fig. 3. The heating medium circuit distributor in radiator and floor heating systems consists of a connected radiator supply beam 1 with a floor return beam 2 and a connected floor supply beam 4 with a radiator return beam 5 and from a floor heating mixer 14 with a pump and mixing valve connected in series between the floor beam 2 and the floor feed 4 beam. The radiator supply beam 1 and the floor return beam 2 are connected with each other through the three-way supply valve 3 and the floor supply beam 4 with the radiator return beam 5 are connected with each other through the three-way return valve 6. Connected to the three-way supply valve 3, the radiator supply beam 1 is connected to the opposite connection opening 7 and the free-flow channel 8, then communicated through the second lower connection opening 9 to the boiler feed inlet 10. On the other side, connected to the three-way supply valve 3, the floor return beam 2 is connected to the opposite connection opening 7 and the regulated flow channel 11 and then through the through hole of the partition 12 it communicates with the free flow channel 8 and then with the boiler feed pipe 10. Connected to the three-way return valve 6, the floor supply beam 4 is connected to the opposite connection hole 7 and the regulated channel o flow 11, then communicated through the passage opening of the partition 12 with the boiler return conduit 13. On the other side, connected to the three-way return valve 6, the radiator return beam 5 is connected to the opposite connection opening 7 and the free flow channel 8, communicated through the lower connection opening 9 with the return conduit boiler 13. Between the outlet from the radiator beam 5 and the connection hole opposite to the 7 of the free flow channel 8 a check valve 15 is connected, blocking the inflow of the heating medium towards the radiator return beam 5. Three-way valve of supply 3 and three-way valve of return 6 inside the valve housing 16 They are equipped with an internal partition 17 with a through hole in the partition 12. Near the through hole of the partition 12 there is a sliding regulating and closing element 18, seated on the internal end of the spindle 19. Three-way valve 3 and three-way return valve 6 in the fourth through hole the valve housings 16 include a valve head 20 fitted through a threaded joint. In the valve head 20 there is a head seat 27 which houses an adjusting pin 21 with an expansion spring 28 and a thrust washer 25 and a ring washer 26 associated with the adjusting pin 21. one in the valve head 20 and the other in the head gland 29. The head gland 29 is seated through a threaded joint in the head seat 27, with the outer end of the spindle 22 protruding above the head gland 29. On the valve head 20 of the three-way return valve 6, a threaded connection is mounted thermostatic head 23. Protective caveat. Heating medium circuit manifold in radiator and floor heating systems, consisting of a radiator supply beam connected to the floor return beam, and a floor supply beam connected to the radiator return beam, and connected in series between the floor return beam and the beam the floor heating mixer with a pump and a mixing valve, characterized in that the radiator supply beam (1) with the floor return beam (2) are connected with each other through the three-way supply valve (3) and the floor supply beam (4) with the return beam radiator (5) are connected with each other through the three-way return valve (6), while the radiator supply beam (1) connected to the three-way supply valve (3) is connected to the opposite connection opening (7) and the free flow channel (8) through the second lower connection opening (9) with the supply inlet