FR2920222A1 - Building room heating device, has heat transfer fluid circulating primary circuit connecting passage to tubes and part of heat exchanger, and temperature regulator permanently comparing temperatures of primary and central heating circuits - Google Patents

Abstract

The device has a primary circuit circulating a heat transfer fluid i.e. water, and connecting a double skin passage (13), placed in a bonnet (12), to tubes (28) placed at a base of a combustion chamber (11), and to a part (29) of a heat exchanger (30). A secondary circuit circulates another heat transfer fluid i.e. water, and connects a part (35) of the exchanger in relation with the part (29) to a channel (23) of a central heating circuit by a three-way solenoid valve (36). An electronic temperature regulator (40) permanently compares temperatures of the primary and heating circuits.

Description

HEATING DEVICE

  TECHNICAL FIELD The invention relates to a device for heating at least one part of a building. STATE OF PRIOR ART The invention relates to a heating device to supplement the heat input of a conventional central heating by a supplementary heat input due to the use of a chimney. DISCLOSURE OF THE INVENTION The invention relates to a device for heating at least one part of a building comprising a central heating circuit comprising a boiler and radiators connected together by pipes, characterized in that it comprises: a heating element comprising a hearth adapted to receive a fuel surmounted by a hood connected to a chimney; a primary circuit for circulating a first heat-transfer fluid connecting an existing passage in the hood to first tubes placed at the chimney; base of the hearth and a first part of a heat exchanger, - a secondary circulation circuit of a second heat transfer liquid connecting a second part of the heat exchanger, in relation to the first and against the current relative to it, with at least one pipe of the central heating circuit via at least one three-way solenoid valve, - an electronic temperature controller which continuously compares the temperature of the primary circuit and that of the central heating circuit. Advantageously, this device further comprises an air ventilation circuit connected to the outside of the building through an electric fan, and second tubes provided with air outlets. Advantageously, the primary hydraulic circuit comprises a circulator. The secondary hydraulic circuit also comprises a circulator. Advantageously, the existing passage in the hood forms a double skin and comprises a set of baffles so as to form a rotating circuit around the heating body and the hood. The baffles are welded to the inner skin. Advantageously, the double skin passage in the hood is made of steel sheets, about 5mm thick, fully welded, the two skins being spaced about 50mm to allow the circulation of the first coolant liquid, the baffles being spaced apart. about 70mm. Advantageously, the heat exchanger is a junction type plate heat exchanger or a brazed plate heat exchanger.

  In a first variant embodiment, the device of the invention further comprises an air / air exchanger placed in place of a section of the chimney duct connected to a third part of the heat exchanger to form a circuit primary air circulation, a second circulation circuit of the second secondary heat transfer fluid connecting a fourth portion of the heat exchanger with at least one pipe of the central heating circuit via at least one three-way solenoid valve, a temperature regulator continuously comparing the temperature of the primary air circulation circuit and that of the second secondary circulation circuit of the second heat transfer liquid.

  In a second variant embodiment, the device further comprises an air / air heat exchanger placed inside the chimney duct connected to a third part of the heat exchanger to form a primary air circulation circuit, a second secondary circuit for circulating the second heat transfer fluid connecting a fourth portion of the heat exchanger with at least one pipe of the central heating circuit via at least one three-way solenoid valve, a temperature regulator continuously comparing the temperature of the primary air circulation circuit and that of the second secondary circulation circuit of the second heat transfer liquid. The device of the invention solves a technical problem of energy transport from a conventional fireplace by not carrying air but hot water. Not only does the chimney heat the heat transfer fluid of the central heating but in addition it only heats it if the heat transfer fluid of the chimney is warmer than that of the central heating. The device of the invention also makes it possible to obtain, on the central heating circuit, hotter returns than the allers and then stop the boiler. BRIEF DESCRIPTION OF THE DRAWINGS The single figure illustrates the device of the invention. DETAILED DESCRIPTION OF PARTICULAR EMBODIMENTS The device for heating at least one part of a building according to the invention, as illustrated in the figure, comprises a chimney formed of a heating body 10, comprising a hearth 11 adapted to receive a fuel, surmounted by a hood 12 connected to a flue 16. This hood 12, made of double skin steel, forms a passage 13 for a first coolant, which may be water. A central heating circuit 20 comprises a boiler 21 and radiators 22 interconnected by pipes 23, on one of which is fixed a temperature sensor 24 for measuring the temperature of the second heat transfer fluid, which may be 30.degree. the water. Arrows 25 and 26 illustrate the circulation of this second coolant in this circuit. A set of tubes 27 and 28 is placed at the base of the hearth 11. On this assembly, it is possible to position the fuel, for example logs of wood. A primary circulation circuit of the first coolant 32, introduced by means of a valve 33, connects the passage 13 formed in the hood 12, the first tubes 28 and a first portion 29 of a heat exchanger 30. temperature 31 is connected to this primary circuit, for example on the passage 13, to measure the temperature of the first heat transfer liquid. The second tubes 27 equipped with nozzles 44 bring the fresh air from the outside by the fan 42. A secondary circulation circuit of the second heat transfer liquid connects a second portion 35 of the heat exchanger 30, in relation with the first part 29 against the current with respect to this first part, at least one pipe 23 of the central heating circuit via at least one three-way solenoid valve 36. A first circulator 38 is placed on the primary circuit. A second circulator 37 is placed on the circuit 40, receiving temperature 31 the secondary temperature. A temperature controller of the information of the sensors 24 and 24 makes it possible to continuously compare the primary circuit with that of the central heating circuit and to control the solenoid valves 36 and 56. The electric fan 42 can be controlled manually.

  A circuit 41 of air ventilation 45 is connected to the outside of the building through the electric fan 42. It provides fresh air necessary for the proper operation of all, with an adjustable flow. This circuit 41 comprises the second tubes 27, provided with air outlet nozzles 44 making it possible to bring air under pressure or at a high flow rate to the base of the furnace in order to boost the combustion of the fuel to its maximum by providing the amount of air needed for a proper combination, and thus obtain a forge effect to raise the temperature within the focus. In the figure the fireplace 11 is closed by two glass doors 14 and 15 so that the fresh air supplied is not dissipated in the room to be heated. The double skin passage 13 in the hood 12 can be made of steel sheets, for example 5mm thick, fully welded. The two skins can be spaced approximately 50mm to allow the circulation of the first coolant. A set of baffles, welded to the inner skin and spaced for example about 70mm, constitute a circuit taken by the first heat transfer fluid all around the fireplace 11. All of these baffles thus form a circuit that rises by turning around the heater. The hearth 11 is thus completely surrounded by water except on the side allowing the loading of fuel (doors 14 and 15). The direction of circulation of the first heat transfer fluid is rising in the direction of a thermo-syphon when it is hot. The primary circuit thus turns in a loop on the plate heat exchanger 30. The electric circulator 38 of the primary circuit operates only from 40 C thus avoiding unnecessary operation when there is no heat to recover . By doing so, the temperature of the primary circuit is homogenized to prepare for heat recovery. If the primary circuit is hotter (sensor 31) than the central heating circuit (sensor 24) the (or) the solenoid valves 36 controlled by the temperature regulator 40 deflect the second heat transfer fluid from the boiler 21 towards the part 35 of the heat exchanger 30. The latter having a yield of more than 90%, it recovers instantly all the possible energy emanating from the chimney. There is thus a heat input of the first heat transfer liquid to the second heat transfer liquid. When the temperature of the primary circuit drops below 40 C, it means that there is more energy to recover in the short term. It is then possible to stop the mechanical ventilation and the electric circulator 38. The device of the invention can be completed by an energy recovery system placed in the flue 16, to use the heat of the combustion gases or fumes. Such a recovery system 50 can be installed on a chimney or on a boiler. It can thus place it in place of a section of the flue 16, or directly inside this duct. This recovery system 50 may be an air / air heat exchanger with brazed or welded plates. The exchanger 50 can also exist in water / water version provided to remain frost-free when the installation is stopped. In this case, the exchanger 50 is an extension of the double skin hood. As illustrated in the figure, a primary ventilation circuit comprises such a heat exchanger 50 connected to an electric fan 51 and to a third portion 52 of the heat exchanger 30. The electric fan 51 recirculates its air flow 53 at through the air / air heat exchanger 50 and through the portion 52 of the air / water heat exchanger 30. A temperature sensor 54 is connected to this primary circuit. A second secondary circulation circuit of the second heat transfer fluid connects a fourth portion 55 of the heat exchanger 30, in relation to the third portion 52 against the current relative thereto, to at least one pipe 23 of the heat transfer circuit. central heating via at least one three-way solenoid valve 56 controlled by a regulator 56. This regulator 56 is also connected to the temperature sensor 54 and the electric fan 51. This gives a primary circuit only heated in air and placed in contact with a secondary circuit filled with the second heat transfer liquid.

  The secondary circuit of the air / water heat exchanger, thus containing the second coolant liquid turns in a loop on the water / water heat exchanger of the chimney or directly on the central heating circuit, on the returns in order not to send the water too hot in radiators 22.

  If the returns are hot, the boiler stops working immediately. The regulator 56 controls the operation of the assembly so that it is stopped if there is no energy to recover.

  Exemplary embodiment The volume of water surrounding the heating element is between 100 and 200 liters. This water can rise to 50 C fairly quickly for example in 30 minutes. The device of the invention was tested in winter during a power failure, that is to say with impossibility of operating the circulators and regulation. It has then reached a temperature of 100 C in less than one hour and this without danger since this circuit can have an expansion tank in the open air. When the electricity came back, all the radiators were immediately warm because all the energy accumulated in the heating body was immediately passed into the central heating circuit. In steady state, with water coming from the boiler at 50 C the device of the invention 30 allows to raise this temperature to 65 C.

  The temperatures obtained depend on the quality of combustion in the home. The device of the invention can heat an entire house, for example 300m2 of housing, regardless of where the fireplace is located, it can even be placed outside the house. At no time the boiler can heat the chimney since it has an electronic temperature control constantly comparing the temperatures of the different circuits, which are independent.

Claims (10)

  1. Device for heating at least one room of a building comprising a central heating circuit, characterized in that it comprises: - a heating body (10) comprising a hearth (11) adapted to receive a fuel topped by a hood (12) connected to a flue (16), - a primary circulation circuit of a first heat transfer liquid connecting a passage (13) existing in the hood to first tubes (28) placed at the base of the firebox, and a first portion (29) of a heat exchanger, - a secondary circulation circuit of a second heat transfer fluid connecting a second portion (35) of the heat exchanger, in relation to the first and against -current relative thereto, with at least one pipe of the central heating circuit via at least one three-way solenoid valve (36), - an electronic temperature controller (40) which continuously compares the temperature of the primary circuit and that of the circuit central heating.   2. Device according to claim 1, which further comprises an air ventilation circuit (41) connected to the outside of the building through an electric fan (42), and to second tubes (27). equipped with air outlets.   3. Device according to claim 1, wherein the primary hydraulic circuit comprises a circulator (38).   4. Device according to claim 1, wherein the secondary hydraulic circuit comprises a circulator (37).   5. Device according to claim 1, wherein the passage (13) existing in the hood forms a double skin and comprises a set of baffles so as to form a rotary circuit around the heating body (10) and the hood (12). ).   6. Device according to claim 4, wherein the baffles are welded to the inner skin.   7. Device according to claim 6, wherein the double skin passage in the hood is made of steel sheets, about 5mm thick, fully welded, the two skins being spaced about 50mm to allow the circulation of the first coolant, the baffles being spaced about 70mm.   8. Device according to claim 1, wherein the heat exchanger (30) is a heat exchanger plate type jointed where a brazed plate heat exchanger.   9. Device according to claim 1, which comprises an air / air exchanger (50) placed in place of a section of the flue (16) connected to a third portion (52) of the heat exchanger (30). for forming a primary air circulation circuit, a second secondary circuit for circulating the second heat transfer liquid connecting a fourth portion (55) of the heat exchanger with at least one pipe of the central heating circuit via at least one three-way solenoid valve (56).   The device of claim 1, which includes an air / air heat exchanger (50) disposed within the chimney conduit (16) connected to a third portion (52) of the heat exchanger (30) to form a primary air circulation circuit, a second secondary circulation circuit of the second heat transfer liquid connecting a fourth portion (55) of the heat exchanger with at least one pipe of the central heating circuit via at least one three-way solenoid valve (56).