RU2022104021A - MODULAR THERMAL PLANT - Google Patents

Claims (11)

1. Heating station (500) formed from a monolithic main body (1) so that it is formed from a single body and is configured to connect a heat exchanger (2) to a set of first flow pipelines (3) formed inside said heating station (500) , by means of a set of first connection ports (5), wherein the heating station (500) is made with receiving spaces (10, 10a, 10b) fluidly connected to the first flow pipelines (3) and designed to be inserted into said receiving spaces (10, 10a, 10b) specialized flow devices (25), such as valve assemblies, flow sensors or pumps, and there is a set of second connection ports (6) designed to connect the first flow pipelines (3) with pipes of the heating circuit of the supply network and the consumer network, and there is a set of third connection ports designed to connect the main body (1) with an additional module (100). 2. Heating station (500) according to claim 1, in which the receiving space (10, 10a, 10b) forms part of the first flow pipeline (3) and forms two holes (4a, 4b) in the inner wall of the receiving space, and the receiving space ( 10, 10a, 10b) is intended for a valve (25) for controlling the flow of fluid between said two holes (4a, 4b). 3. Heating station (500) according to claim 2, in which an edge (11) is provided inside in the wall of the internal receiving space (10, 10a, 10b) between said two holes (4a, 4b), designed to work as a valve seat. 4. Heating station (500) according to claim 1, in which at least two different first flow pipelines (3) are connected to the receiving space (10, 10a) to allow the insertion of a bypass valve (25). 5. Heating station (500) according to claim 1, in which at least one receiving space (10, 10b) is formed by a pressure section (10c) designed to drive pressure and forming a fluid connection through the pressure pipe (18) to the position first path (3) flow. 6. Heating station (500) according to any of the preceding claims, in which the first flow path (3) forms two sections not connected to each other, and each section has an access opening (12) designed to be connected by a connecting device, and the specified the connecting device may be selected from a flow control valve, a pressure control valve, a flow sensor, or a pipe section. 7. Heating station (500) according to claim 6, in which the main body (1) is equipped with means for attaching the connecting device to the heating station (500). 8. The heating station (500) of claim 1, wherein the station add-on module itself contains access ports allowing it to be connected to another add-on module (100). 9. Heating station (500) according to any one of the preceding claims, wherein the first flow conduits (3) include a heating fluid supply conduit and a heating fluid return conduit, enabling the connection to circulate the heating fluid to the first flow path of the heat exchanger wherein the flow conduits include a domestic fluid supply conduit and a domestic fluid return conduit enabling water to circulate to the second heat exchanger path, the first flow conduits (3) further including a flow path connected with said domestic fluid supply circuit for returning unheated water, wherein the heating fluid supply and heating fluid return pipelines are connected only to a set of third connection ports (7) for connection to an additional module (100). 10. Heating station (500) according to any one of the preceding claims, wherein the receiving space (10, 10a, 10b, 10c) is provided in each first flow path (3) with the choice of inserting a flow device or a sealing plug to close the flow in said first paths (3) flow. 11. Heating station (500) according to any one of the preceding claims, in which the set of second connection ports (6) is designed to be connected to a connecting device (200) designed to be placed between the heating station (500) and the heating pipes of the flow circuit of the supply network and the consumer network, moreover, the connecting device (200) is formed by holding means (210) fixing a set of connecting pipelines (220) configured to be connected to the first flow pipelines (3) inside the heating station (500) with the heating pipes of the flow circuit, and the connecting pipelines are designed for flow devices (225), such as valves, flow sensors and pumps, placed between the heating station (500) and the supply and consumption network.