A hydraulic manifold for a hydraulic heating and/or cooling system includes a feed conduit (212) and a return conduit (216). The feed conduit (212) includes at least one feed connection (258), and the return conduit (216) includes at least one return connection (260), for the connection of a load circuit (228). A load module (204), in which a section of the feed conduit (212) with the feed connection (258), and a section of the return conduit (216) with the return section (260) are formed, includes at least one mixing device with a pump (232) and with a regulating valve (230), to admix fluid from the return connection (260) to a fluid flow from the feed conduit (212) to the feed connection (258). The section of the feed conduit (212) and the return conduit (216) in each case include an additional contact for connection with a further load module.

A radiant heating installation system is provided herein. The system includes a radiant heating tubing defining a tubing run. The system can include a first removable positioning fixture that receives a portion of the radiant heating tubing and temporarily restrains the radiant heating tubing in a deflected configuration. The system can also include a second removable positioning fixture configured to that receives a second portion of the radiant heating tubing and temporarily restrains the radiant heating tubing along a run of the radiant heating tubing.

A hydronic panel and system for heating and/or cooling a room is disclosed. The hydronic panel includes a plurality of contiguous channels. A first chamber is located at a first end, preferably the upper end, of the panel and includes an inlet and communicates with a first subset of the channels. A second chamber is located at an opposite end of the panel and communicates with the first subset and also with a second subset of the channels. A third chamber is located at the first end of the panel, the third chamber communicates with the second subset of the channels and includes an outlet. In this configuration, heated or cooled water flows from the inlet into the first chamber, through the first subset of the channels, to the second chamber, through the second subset of the channels, into the third chamber and out the outlet. Consequently, the heated or cooled water can heat or cool the space. In addition to at least one hydronic panel, the system includes a source of heated and/or cooled water under sufficient pressure to cause the water to flow through the panel. The system also includes a controller to control one or both of the temperature of the water and the flow rate of the water through the panel.

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.

A circulation pump assembly for a heating and/or cooling system includes an electric drive motor (108) and a connected pump housing (106) in which at least one impeller (118) is situated and which comprises a first inlet (112) and a first outlet (114). The pump housing (106) includes a second inlet (122) which is connected in an inside of the pump housing (106) at a mixing point (130) to the first inlet (112). A regulating valve (134), which is designed for regulating the mixing ratio of two flows mixing at the mixing point (130), as well as a control device, which controls the regulating valve (134) for regulating the mixing ration, are arranged in the pump housing (106). A hydraulic manifold is provided with such a circulation pump assembly.

A circulation pump assembly for a heating and/or cooling system includes an electric drive motor (108) and a connected pump housing (106) in which at least one impeller (118) is situated and which comprises a first inlet (112) and a first outlet (114). The pump housing (106) includes a second inlet (122) which is connected in an inside of the pump housing (106) at a mixing point (130) to the first inlet (112). A regulating valve (134), which is designed for regulating the mixing ratio of two flows mixing at the mixing point (130), as well as a control device, which controls the regulating valve (134) for regulating the mixing ration, are arranged in the pump housing (106). A hydraulic manifold is provided with such a circulation pump assembly.

A hydraulic heating and/or cooling system hydraulic manifold is constructed in a modular manner with a main module (2). At least one load module (4) is connectable to the main module (2) and includes a hydraulic connection (22, 24) for a load circuit, and a closed-loop control device (26, 28) controlling flow through the load and for connection to an identically configured further load module (4). The at least one load module (4) includes a circuit board (44) which extends between a first (34) and a second axial end (36) of the load module (4) and which at its first (34) and second end (36) have electrical couplings (50, 52) which correspond to one another. The electrical coupling (52) at the second end (36) of the circuit board (44) can electrically conductively engage with an electrical coupling (50) at the first end (34) of the further identical load module (4).

A modular thermal transfer emitter configured to be compatible with installation for indoor radiative heating and cooling. For example, modular emitters radiatively and conductively heat and/or cool an interior space in a building using a heat exchanger and tubing through which thermal fluid flows. These modular emitters can be arranged within a suspended ceiling, walls, flooring of a residential and commercial building. A system for exchanging heat from components can include multiple heat exchangers adjacent to the components and one or more pumps connected to the heat exchangers. The pumps can generate water flow that brings the heat to a secondary heat exchanger. Because the modular emitters can have a large area (e.g., spanning a significant percentage of the ceiling or wall) a desired amount of heat transfer can be achieved without requiring a large temperature difference between the thermal fluid and the ambient surroundings.

The method of construction of a wall heating panel and a wall heating panel consists in constructing an aluminium multi-channel collector, preferably with one phase transition channel, connecting it inseparably with vertical aluminium heating elements, arranging the heating elements in the grooves of a dry wall construction board, preferably magnesium, and filling the space between the grooves and the heating elements with elastic compound, and then applying paperaluminium foil laminate onto the whole surface of the board. A wall heating panel consists of an aluminium collector (1) with stub pipes (2), inside the collector there are horizontal parallel phase transition channels (3) and a water channel (4), the phase transition channel (3) is inseparably connected with the vertical aluminium heating elements (5) which are inserted into the grooves of the dry wall construction board (6), spaces between the grooves and the heating elements are filled with elastic compound (7) and sealed with paperaluminium foil laminate (8), whereas the top part of the collector (1) adjoins the bottom surface of the board (6).

The invention relates to a building panel intended for creating heating and/or cooling walls of buildings, comprising: a base element defined by an upper face, a lower face and several lateral faces circulation means (12) for the circulation of a heat-transfer or cooling fluid, which are arranged on the inside of said base element, a substantially flat conducting element, fixed to the upper face of the base element so as to cover it entirely or almost entirely, said conducting element having good thermal conductivity, mechanical connection means secured to said base element, said mechanical connection means being able to allow removable attachment of said building panel to an identical or similar building panel arranged adjacent to the latter, fluidic-connection means designed to allow the heat-transfer or cooling fluid to circulate between said building panel and an identical or similar building panel attached thereto, leak detection means able to detect a leak of heat-transfer or cooling fluid at the lower or upper face of the base element.