A method of operating a heating or cooling system, comprising (1) providing a heating or cooling apparatus comprising first and second heat exchangers, (2) providing a conduit module modularly coupled to the heating or cooling apparatus and adapted to be coupled to a plurality of fluid circuits for heating or cooling loads, and (3) operating a control system configured to operate the conduit module in a heating or cooling mode. The conduit module is positioned between the heating or cooling apparatus and the plurality of fluid circuits. The conduit module comprises first, second, and third supply conduits and first, second, and third return conduits, to convey first, second, and source fluids to and from respective first, second, and source fluid circuits. The conduit module comprises first, second, third, and fourth three-way valves to selectively regulate flow of the first, second, and source fluids.

Heat exchanger output control device in a one-pipe heating network characterized in that a first T-branch, which is connected to a second T-branch interconnected to a primary outlet pipe connection of a primary outlet pipe to a heat source through a primary outlet, is connected to the primary inlet pipe connection through a primary inlet. The first T-branch is connected to a secondary supply pipe connection through a secondary supply pipe with a secondary supply temperature sensor, and the second T-branch is connected to a secondary return pipe connection through a secondary return pipe with an additional secondary return temperature sensor. An impeller of a pump is connected to a secondary circuit to pump the heat-transfer medium from the first T-branch through a heat exchanger back to the second T-branch, and to connected to a electrical motor provided with a control unit connected to secondary supply and return temperature sensors.

A method of operating a heating and cooling system, including (1) providing a heating/cooling apparatus comprising first and second heat exchangers, (2) providing a conduit module modularly coupled to the heating/cooling apparatus and adapted to be coupled to a plurality of fluid circuits for heating and/or cooling loads, and (3) operating a control system configured to operate the conduit module in a plurality of heating and/or cooling modes. The conduit module is positioned between the heating/cooling apparatus and the plurality of fluid circuits. The conduit module includes first, second, and third supply conduits and first, second, and third return conduits, to convey first, second, and source fluids to and from respective first, second, and source fluid circuits. The conduit module includes first, second, third, and fourth three-way valves to selectively regulate flow of the first, second, and source fluids.

A self-assembly hot water mat capable of extending through an assembly, the self-assembly hot water mat capable of being assembled with other self-assembly hot water mats, having four sides, and including a path for circulating hot water includes a plurality of hot water passages formed in the self-assembly hot water mat to provide a plurality of hot water flow paths, an inlet formed at each of the four sides, through which hot water flows in, and an outlet formed at each of the four sides and paired with the inlet, through which hot water flows out.

An air-conditioning system, for a pre-installed heating system equipped with a circulating network of a primary heat exchange fluid between a central unit and a plurality of peripheral units of heat exchange with the environment air, wherein the central unit includes a heat source/well for heat adjusting the primary heat exchange fluid in a range between a hot temperature and a cold temperature lying above the current dew temperature, the peripheral units including active fan coil units, having at least one refrigerating-fluid section, with a closed circuit including a first batch of fluid/air heat exchangers, and a heating section with a second batch of fluid/air heat exchangers, and wherein a supply portion and a return portion of the circulating network are connected to the second batch of heat exchangers and to a third fluid/fluid heat exchanger connected to the closed circuit of the refrigerating fluid section.

Disclosed are a sealed box container, a main machine of a heat recovery switching device and a refrigeration device. The sealed box container includes box bodies that are spliced to form a sealed cavity, and is provided with a through hole in communication with the sealed cavity, and the sealed cavity is used for accommodating a pipeline assembly of a main machine, and the pipeline assembly is connected to an external pipeline by means of the through hole.

A hydronic apparatus support system for supporting a component of a hydronic fluid handling apparatus may comprise a base mounting assembly with a base rail for mounting on a support and forming a ledge, and a base panel supportable on the base rail and having an outer surface with a plurality of mounting apertures being formed in the outer surface. The system may further include at least one component mounting bracket mountable on the base panel to support the component on the base mounting assembly. The component mounting bracket may have at least two holes simultaneously alignable with at least two of the mounting apertures of the plurality of mounting apertures in the base panel to permit a fastener to pass through a hole of the mounting bracket and a mounting aperture of the base panel aligned with each other.

A heating system includes a first pipe portion configured to connect to piping that returns water from a heat exchanger in a building back to a boiler in the building. A longitudinal axis of the first pipe portion can extend vertically. A second pipe portion can have a first end, a second end, and a longitudinal axis extending therebetween. The first end of the second pipe portion can be configured to connect to piping that supplies water to the heat exchanger. The second end of the second pipe portion can be configured to connect to the second end of the first pipe portion. The longitudinal axis of the second pipe portion can extend parallel to the longitudinal axis of the first pipe portion. The second pipe portion can be spaced-apart from the first pipe portion. The system can be in the form of an installation kit for a heating appliance.

A boiler loop system including a primary-secondary piping loop interface apparatus including a flow diversion device, and a drain valve, and a drain port in branches from a circumferential sidewall. In an embodiment, supply branch piping and return branch piping connect the primary-secondary piping loop interface apparatus to a boiler and provide attachment points for auxiliary plumbing equipment. In an embodiment, the boiler loop is integrated into the primary loop.

Provided is a self-assembly hot water mat capable of extending through assembly. A self-assembly hot water mat capable of being assembled with other self-assembly hot water mats, having four sides, and including a path for circulating hot water includes a plurality of hot water passages formed in the self-assembly hot water mat to provide a plurality of hot water flow paths, an inlet formed at each of the four sides, through which hot water flows in, and an outlet formed at each of the four sides and paired with the inlet, through which hot water flows out.