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 controller assembly allows an adjusted flow of water through a hydronic emitter in order to heat or cool an environmental entity. The controller assembly operates in two phases: a calibration phase and an operational phase. During the calibration phase, the controller assembly discovers a valve position where water starts to flow through the hydronic emitter based on signals from a temperature sensor and/or a sound sensor. The temperature sensor may be mounted in close proximity of the emitter inlet so that the controller assembly can detect when the temperature starts to change. The sound sensor may be mounted on the valve body to detect a rushing water sound that is associated with a start of the water flow. The discovered valve position is subsequently used by the controller assembly to adjust water flow between a minimum flow and a maximum flow.

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.

The invention relates to the field of devices and systems for temperature regime regulation both in living and uninhabited premises of any destination, for rooms heating. The invention ensures rise of thermostability of the heat exchange panel construction in the wide range of temperature, allowing to widen the sphere of its use. The heat exchange panel of a thermoregulating device comprises a flattened base made of a low heat conductivity polymer material and having two opposing flat functional sides joined along their outside edges to narrow lateral sides, at that one of said functional sides has grooves with channels for receiving piping elements of a heat exchange loop, and a heat exchange coating made of a high heat conductivity material is arranged on the surface of the grooved functional side of the base so as to cover both the flat surface thereof and the surfaces of the channel cavities, the distinction of the prototype is that the heat exchange coating is made of foil and is adhesively bonded to the surface of the functional side of the base.

A universal membrane is configured to be installed between a subfloor and floor tiles to allow movement of the floor tiles relative to the subfloor. The universal membrane includes a base layer, a plurality of studs projecting from the base layer, and a plurality of sidewalls projecting from the base layer and disposed between adjacent ones of the plurality of studs. Each sidewall of the plurality of sidewalls forming a perimeter of a pocket. The base layer forms a bottom wall of the pocket.

A support for the heating elements of radiant coverings and floors is disclosed. One example of a support disclosed herein includes bosses having a concave portion. In some examples, defined on the surface of the concave portion is at least one adhering low relief, for example four adhering low reliefs may be provided per concave portion.

A support for the heating elements of radiant coverings and floors is disclosed. One example of a support disclosed herein includes bosses having a concave portion. In some examples, defined on the surface of the concave portion is at least one adhering low relief, for example four adhering low reliefs may be provided per concave portion.

Controlling under surface heating/cooling by supplying liquid to at least two supply loops in an under surface heating/cooling system, and controlling the flow of the liquid on and off such that during the duty cycle the flow is high and between the duty cycles the flow is off. Room temperature is controlled by controlling the percentage of the duty cycles, which percentage is determined on the basis of the heating demand of the rooms. Different loops are controlled such that at least in two different loops the duty cycles start at different moments.