There is provided a system for securing a tube heater to a structure, the tube heater having a burner and a radiant tube extending to an exhaust outlet. The system includes an elongate canopy with an exhaust end securable to the exhaust outlet, an opposed burner end securable adjacent to the burner, and a reflector extending there between. An exhaust hanger is rigidly coupled to the structure and to the canopy proximate the exhaust end, and rigidly receives the exhaust outlet. A burner hanger is coupled to the canopy proximate the burner end and is slidably coupled to the structure. The burner hanger receives the radiant tube therethrough. The burner hanger allows the burner and burner end of the canopy to slide relative to the structure to accommodate thermal expansion of the radiant tube and the canopy from the exhaust end towards the burner end.

The invention relates to a system and method for fastening a heating/cooling element (3) to a wall or to a floor, the method comprising the following steps: a) fastening at least two brackets (1, 2) to a wall (W) and/or to a floor (B), the longitudinal axis (L) of each bracket (1, 2) being vertically oriented and the two brackets (1, 2) being spaced apart from one another in the horizontal direction; b) bringing a first (lower) edge formation of the heating/cooling element into engagement with the complementary first bracket formation (F1) of the particular bracket (1, 2), so that a pivoting engagement between the heating/cooling element (3) and the brackets (1, 2) is established; c) pivoting the heating/cooling element (3) with respect to the two brackets (1, 2) about a pivot axis (R), a second (upper) edge formation of the heating/cooling element being swiveled toward the second bracket formation (F2) of the particular bracket (1, 2); and d) bringing the second (upper) edge formation of the heating/cooling element (3) into engagement with the complementary second bracket formation (F2) of the particular bracket (1, 2), so that a locking engagement between the heating/cooling element (3) and the brackets (1, 2) is established.

A component for connecting a hydraulic unit of a heating device, which includes at least one means for the attachment to a housing structure. The at least one means for the attachment to a housing structure is developed as a plug-in element. A device for connecting a hydraulic unit of a heating device, which includes at least one component for connecting a hydraulic unit of a heating device is also provided. The component is disposed so as to be exchangeable. A heating device, which has at least one hydraulic unit, is also described. The hydraulic unit is fixed in place on a housing structure of the heating device via an exchangeable component. A method for mounting a hydraulic unit of a heating device is also described.

There is provided a system for securing a tube heater to a structure, the tube heater having a burner and a radiant tube extending to an exhaust outlet. The system includes an elongate canopy with an exhaust end securable to the exhaust outlet, an opposed burner end securable adjacent to the burner, and a reflector extending there between. An exhaust hanger is rigidly coupled to the structure and to the canopy proximate the exhaust end, and rigidly receives the exhaust outlet. A burner hanger is coupled to the canopy proximate the burner end and is slidably coupled to the structure. The burner hanger receives the radiant tube therethrough. The burner hanger allows the burner and burner end of the canopy to slide relative to the structure to accommodate thermal expansion of the radiant tube and the canopy from the exhaust end towards the burner end.

A radiator bracket connects a radiator to a support surface, such as a wall, and includes at least one vertically extending channel having a width that decreases from an open end to a narrow end with the narrow end being located closer to either the radiator or the support surface. The vertically extending channel can be a single channel or two channels. Where the bracket has a single channel, two brackets can be used with one of the brackets having its narrow end closest to the radiator and the other having its narrow end closest to the wall.

Disclosed herein is a radiator comprising a heat exchanger that includes a plurality of fluid conduits for carrying a thermal fluid. Each fluid conduit extends along a longitudinal axis between a first end and a second end. At least some of the fluid conduits are laterally offset from each other. The radiator also comprises a direct-flow manifold and, a reverse-flow manifold. The direct flow manifold is for conveying the thermal fluid along a first flow direction between the first ends of the fluid conduits and a first radiator line. The reverse-flow manifold is for conveying the thermal fluid along a second flow direction between the second ends of the fluid conduits and an elbow passageway, and along a third flow direction between the elbow passageway and a second radiator line. The third flow direction is opposite to the second flow direction.

The invention relates to a system and method for fastening a heating/cooling element (3) to a wall or to a floor, the method comprising the following steps: a) fastening at least two brackets (1, 2) to a wall (W) and/or to a floor (B), the longitudinal axis (L) of each bracket (1, 2) being vertically oriented and the two brackets (1, 2) being spaced apart from one another in the horizontal direction; b) bringing a first (lower) edge formation of the heating/cooling element into engagement with the complementary first bracket formation (F1) of the particular bracket (1, 2), so that a pivoting engagement between the heating/cooling element (3) and the brackets (1, 2) is established; c) pivoting the heating/cooling element (3) with respect to the two brackets (1, 2) about a pivot axis (R), a second (upper) edge formation of the heating/cooling element being swiveled toward the second bracket formation (F2) of the particular bracket (1, 2); and d) bringing the second (upper) edge formation of the heating/cooling element (3) into engagement with the complementary second bracket formation (F2) of the particular bracket (1, 2), so that a locking engagement between the heating/cooling element (3) and the brackets (1, 2) is established.

A radiator in particular for room heating, comprising a control or measurement unit accommodated in a container integral with the radiator and positioned so as to sustain the heat from the radiator as little as possible, while exploiting a cool air flow drawn by the same to cool the internal circuitry defining the unit. Said container is conveniently spaced apart from the radiator by means of insulating elements and a part of the same container is formed by a heat dissipator to which one or more electronic power elements included in said circuitry are thermally connected.