The present invention is a heater or heating device that uses microwave energy to generate heat quickly. The heater generates heat quickly by forcing air over microwave-heated oil or non-freeze liquid. As a non-limiting embodiment, the heater preferably includes most or all of the following components: an outer casing or housing, at least one air intake vent, a magnetron, a microwave emitter, a wave scatterer, at least one fluid holder, fluid, a capacitor, a transformer, a microwave containment casing, and a perforated microwave guard. As another non-limiting embodiment, the heater preferably includes most or all of following components: an outer casing or housing, a cooling fan, a magnetron, a microwave emitter, a wave scatterer, at least one non-freeze liquid holder, non-freeze liquid, a capacitor, a transformer, a microwave containment casing, a glass tube, a metal tube, a fan coil, a pump, a reservoir and expansion tank, and a fill plug.

A radiator with reduced thermal inertia, based on the principle of phase changing, using a non-toxic, non-flammable fluid with reduced environmental impact. The radiator is provided by means of vertical pipes which engage a collector containing a pipe bundle-type exchanger with smooth or finned pipes, internally crossed by the thermo-vector fluid of the system, and which heat the intermediate vector fluid, bringing it to the biphasic state. The vector fluid evaporates, rising up the vertical pipes, flowing through the channels obtained in the extruded profiles of the vertical pipes themselves. The fluid re-descends, condensing on the walls, returning into contact with the hot pipes of the exchanger in order to re-evaporate and rise back up the vertical pipes. The film of condensed liquid provides the required heat exchange. The terminal is further equipped with mechanical parts which allow the inserting of temperature sensors for possible monitoring and control of consumption and system operation and control thereof, by means of on-board electronic control devices (electric valves) and remote devices suitably operating in radio-frequency.

A heat emitting radiator for heating a space is provided that includes a radiator panel with tubing forming a fluid circuit or loop, wherein the loop includes at least one opening for inserting a heating element that can heat a fluid in the fluid circuit. The radiator may also include a heat absorbing material, such as stone, in thermal contact with the radiator panel. The radiator can be selectively de-activated when a certain temperature has been achieved in the space or in the fluid, allowing heat absorbed by a heat absorbing material positioned within the radiator to then be radiated into the space. The radiator can then be re-activated when a selected low temperature has been reached. The heating element may be a DC electrical heating element configured to be connected to an AC power source.

The present invention is a heater or heating device that uses microwave energy to generate heat quickly. The heater generates heat quickly by forcing air over microwave-heated oil or non-freeze liquid. As a non-limiting embodiment, the heater preferably includes most or all of the following components: an outer casing or housing, at least one air intake vent, a magnetron, a microwave emitter, a wave scatterer, at least one fluid holder, fluid, a capacitor, a transformer, a microwave containment casing, and a perforated microwave guard. As another non-limiting embodiment, the heater preferably includes most or all of following components: an outer casing or housing, a cooling fan, a magnetron, a microwave emitter, a wave scatterer, at least one non-freeze liquid holder, non-freeze liquid, a capacitor, a transformer, a microwave containment casing, a glass tube, a metal tube, a fan coil, a pump, a reservoir and expansion tank, and a fill plug.

A heating device having a holding apparatus to accommodate a control unit, the holding apparatus having a receiving part. The receiving part has at least two struts, and a receptacle for the control unit is developed between the at least two struts. A holding apparatus for a heating device is also described.

A heat emitting radiator for heating a space is provided that includes a radiator panel with tubing forming a fluid circuit or loop, wherein the loop includes at least one opening for inserting a heating element that can heat a fluid in the fluid circuit. The radiator may also include a heat absorbing material, such as stone, in thermal contact with the radiator panel. The radiator can be selectively de-activated when a certain temperature has been achieved in the space or in the fluid, allowing heat absorbed by a heat absorbing material positioned within the radiator to then be radiated into the space. The radiator can then be re-activated when a selected low temperature has been reached. The heating element may be a DC electrical heating element configured to be connected to an AC power source.

The present invention relates to the field of refrigeration and heating technologies, and in particular to a mobile type cold and hot integrated apparatus realized by a compressor, a thick film heater and a water circulation way in a single sealed space without heat exchange of an outdoor machine. The apparatus comprises a shell body, as well as a water circulation cooling compressor refrigeration system and a water circulation thick film heating pipe heating system which are provided in the shell body; wherein the water circulation cooling compressor refrigeration system comprises a refrigeration heat-dissipation module, a water pump A, a water tank, a compressor and a heat-dissipation water tank, the water circulation thick film heating pipe heating system comprises a thick film heating pipe, as well as the water tank and the refrigeration heat-dissipation module which are shared with the water circulation cooling compressor refrigeration system. The apparatus of the present invention has the advantages of good refrigeration heating effect, integrated heat and coldness, customized volume, no need of installation of an outdoor machine, environmental protection and energy saving, plug and play and movable functions, no influence on the environment, comfort for a human body, small energy consumption, and indoor heat storage for life use.

The present invention relates to the field of refrigeration and heating technologies, and in particular to a mobile type cold and hot integrated apparatus realized by a compressor, a thick film heater and a water circulation way in a single sealed space without heat exchange of an outdoor machine. The apparatus comprises a shell body, as well as a water circulation cooling compressor refrigeration system and a water circulation thick film heating pipe heating system which are provided in the shell body; wherein the water circulation cooling compressor refrigeration system comprises a refrigeration heat-dissipation module, a water pump A, a water tank, a compressor and a heat-dissipation water tank, the water circulation thick film heating pipe heating system comprises a thick film heating pipe, as well as the water tank and the refrigeration heat-dissipation module which are shared with the water circulation cooling compressor refrigeration system. The apparatus of the present invention has the advantages of good refrigeration heating effect, integrated heat and coldness, customized volume, no need of installation of an outdoor machine, environmental protection and energy saving, plug and play and movable functions, no influence on the environment, comfort for a human body, small energy consumption, and indoor heat storage for life use.

A heating device having a holding apparatus to accommodate a control unit, the holding apparatus having a receiving part. The receiving part has at least two struts, and a receptacle for the control unit is developed between the at least two struts. A holding apparatus for a heating device is also described.