FR3129712A1 - Device emitting heat or cold with forced convection and heating or cooling system incorporating this device - Google Patents

Abstract

Wall transmitter (10, 110) for heating or cooling a room comprising an exchanger module comprising a set of fins (16) crossed by two tubes (15) and (17) for the circulation of a heat transfer fluid, the first tube ( 15) for the outgoing circulation coming from a thermal generator and the second tube (17) for the return circulation, the exchanger module is responsible for transferring calories from the heat transfer fluid to an air flow or vice versa, is provided with an air outlet and an air inlet, and at least two fans (20, 201, 202) perpendicular to the fins, the flow of air sucked in by the fans passing through the fins (16). According to the invention, the fans are located under the fins so that the exchanger module comprises an enclosure (18, 118) closed on the lateral sides and open downwards only on the fans and upwards on the fins, the passage section of the air outlet of the exchanger module being adapted to be between 50% and 100% of the passage section of the air inlet. Figure for abstract: Figure 6

Description

Device emitting heat or cold with forced convection and heating or cooling system incorporating this device

The present invention relates to the technical field of heating or cooling systems with air circulating in exchanger ducts in the walls and baseboards and relates in particular to a forced convection heat or cold emitter and a heating or cooling system integrating this transmitter.

State of the art

The heating and cooling sector is booming due to the very large share of energy consumed and associated greenhouse gas emissions in buildings and the need to reduce this share in the fight against global warming. climatic. In this context, the use of heat pumps (PAC) as a heating system is on the rise because their power supply can be provided by renewable energies such as those from hydroelectric power stations, wind turbines or photovoltaic solar panels and because 'they are known to be energy efficient. However, the performance of a heat pump is extremely sensitive to its operating conditions. Indeed, when it comes to replacing, for example, a gas or oil boiler with a heat pump, this replacement alone does not allow, in most renovation installation configurations, to obtain the nominal performance. of the heat pump. Indeed, the heat pump provides its best performance when associated with adequate heat emitters, therefore at very low temperatures.

As a general rule and for an air/water type heat pump in heating mode, the lower the temperature of the heat emitter's exchanger fluid, the more efficient the heat pump. In the case of a renovation, when a heat pump is connected to existing heat emitters, these require a high temperature of the exchanger fluid of around 50-70°C. However, with such a temperature of the exchanger fluid, the performance of the heat pump is degraded and even for a heat pump certified at 4 or 5, this performance can drop below 2 on average over the year, because the heat emitter does not does not allow the CAP to operate in a favorable regime. In the case of an air/water heat pump, an ideal emitter should operate with a low fluid temperature, between 25 and 35°C while ensuring efficient diffusion of heat or cold and consuming a small quantity of heat. 'energy. To achieve performance and at the same time optimized comfort, the ideal is to intelligently combine the different types of heat exchange in the emitter, i.e. conduction, natural convection, forced convection and radiation.

There are kit devices comprising small fans which are placed between the slats of a water emitter and which make it possible to add exchanges by forced convection, thus increasing the performance of the emitter which diffuses mainly by natural convection and by radiation. .

The document WO2007000444 describes a heating and/or cooling system placed on the wall of a room at the location of the baseboard. The emitter consists of two parallel tubes carrying the heat transfer fluid, surrounded by a finned diffuser. The system also includes a fan-powered air distribution pipe that passes room air from top to bottom through the finned coil. One of the disadvantages of such a system lies in the fact that it requires a powerful fan to be remote and to be able to supply a wall up to 8m away. On the other hand, the pressure drop is significant over such a length, which induces an uneven diffusion of heat or cold depending on where you are. Moreover, by blowing the heated or cooled air from the top downwards limits this system to a purely convective heating which drastically reduces the comfort of the occupants.

Document CN212057473U describes an electric baseboard heater in the form of a box comprising a heating element such as an electric heating tube or a heating wire arranged along the length of the box, fans placed under the heating element, and an output of air on the top surface of the case. The airflow created by the fans and warmed by the heating element is blown through the air outlet and improves heat distribution compared to a traditional baseboard which heats by natural convection only. The device described in this document does not make it possible to obtain optimized heat exchanges either in terms of exchanges by forced convection or in terms of exchanges by radiation. It is also not designed and adapted to operate with a heat pump and even less so as to reduce its consumption.

This is why the object of the invention is to overcome these drawbacks by providing a heat or cold emitting device adapted to operate with very good efficiency when coupled with a heat pump or another generator system. while providing even temperature distribution and suitable for installation in kit form, for example as part of a building renovation.

The object of the invention is therefore a wall transmitter adapted to be placed on a wall and to heat and/or cool a room comprising an exchanger module comprising a set of fins crossed by two tubes for the circulation of a heat transfer fluid. , the first tube for the outward circulation coming from a thermal generator and the second tube for the return circulation towards the thermal generator, the exchanger module is responsible for transferring calories from the heat transfer fluid to an air flow or vice versa, is provided with an air outlet and an air inlet, the exchanger module comprising at least two fans aligned and placed perpendicular to the fins, the flow of air sucked in by said fans passing through the fins. According to the main characteristic, the fans are located under the fins at a distance of at least 1cm from the fins so that the exchanger module comprises a closed enclosure on the lateral sides and open downwards only on the fans and upwards on the fins, the passage section of the air outlet of the exchanger module being adapted to be between 50% and 100% of the passage section of the air inlet.

Brief description of figures

The aims, objects and characteristics of the invention will appear more clearly on reading the following description made with reference to the drawings in which:

shows a sectional view of the transmitter according to the device of the invention with an open air circuit,

represents a front view of the transmitter according to the device of the invention with an open air circuit,

represents a sectional view of the transmitter according to the device of the invention with a closed air circuit,

represents a front view of the transmitter according to the device of the invention with a closed air circuit,

shows a front view of the transmitter combined with a decentralized dual-flow ventilation device,

shows a sectional view of the transmitter combined with a decentralized dual-flow ventilation device,

shows a perspective view of the transmitter combined with a decentralized dual-flow ventilation device,

shows a sectional view of the emitter combined with a decentralized dual-flow ventilation device and a heat pump.

Claims (21)

Wall transmitter (10, 110) adapted to be placed on a wall (6) and to heat and/or cool a room comprising an exchanger module comprising a set of fins (16) crossed by two tubes (15) and (17) for the circulation of a heat transfer fluid, the first tube (15) for the outward circulation coming from a thermal generator and the second tube (17) for the return circulation towards the thermal generator, the exchanger module is responsible for transferring calories of the heat transfer fluid to an air flow or vice versa, is provided with an air outlet and an air inlet, the exchanger module comprising at least two fans (20, 201, 202) aligned and placed perpendicular to said fins, the flow of air sucked in by said fans passing through the fins (16),
Characterized in that said fans are located under the fins at a distance of at least 1cm from the fins so that the exchanger module comprises an enclosure (18, 118) closed on the lateral sides and open downwards only on the fans and upwards on the fins, the passage section of the air outlet of the exchanger module being adapted to be between 50% and 100% of the passage section of the air inlet. Wall transmitter (10, 110) according to claim 1 wherein the enclosure (18, 118) comprises at least one oblique wall (23) adapted to guide the flow of air, and to provide said enclosure with a longitudinal section of the shape of a trapezium, said section, taken along a plane parallel to the fins (16) is constant over the entire length of the enclosure, so as to homogenize the pressure in the whole of the volume of air contained in the enclosure and to promote uniform distribution of the air flow over the entire length of the exchanger module. Wall transmitter (10, 110) according to claim 1 or 2, adapted to connect via the tubes (15, 17) on each side to another wall transmitter (10, 110) so as to be connected to each other in series , each transmitter being positioned between two uprights (42 and 44) fixed vertically on the wall (6), the thickness of the uprights being adapted so that their front face is flush with the front face of the fins, the tubes (15, 17) of the transmitter placed last being connected by a bent tube (19). Wall transmitter (10, 110) according to claim 3, in which an insulator (7) such as wood wool is placed between the exchanger module and the wall (6), at least on the part of the wall on which the module exchanger is fixed and on the part of the wall located above. Wall transmitter (10, 110) according to claim 3 or 4 fixed against a wall (6) so that the transmitter (10, 110) comprises a plate (14, 114) on its front face which acts as a plinth. Wall transmitter (10) according to claim 5, placed on the lower part of the wall and, the space between the fans and the floor covering delimiting an air supply zone (35) comprising at least one opening located between the part bottom of the plate (14) and the floor covering, an incoming air flow (32) coming from the air supply zone is sucked in by the fans (20) and emerges in the enclosure (18). A wall transmitter (10) according to claim 6, wherein the pressure of the air volume in the enclosure (18) increases and becomes even, which tends to distribute the air volume evenly in the enclosure (18) and tends to homogenize the air flow (34) entering the exchanger module over its entire length and between all the fins, the air flow then circulates vertically from bottom to top between the fins (16) where it is heated or cools in contact with said fins by forced convection and exits through an outlet (26) located at the upper end of the fins to emerge vertically along the wall into the room. Wall transmitter (10) according to Claim 7, in which a wall (8) of the plasterboard or finishing layer type covers the insulation (7) and reduces the outlet section (26). Wall transmitter (110) according to claim 5 placed a few centimeters above the floor covering (4) and in which the front plate (114) descends to the floor covering (4), an air flow (132 ) entering from the bottom of the transmitter, not coming from the room is sucked in by the fans (201) and opens into the enclosure (118). A wall transmitter (110) according to claim 3 or 9, wherein the two vertical posts (42 and 44) extend from floor to ceiling, an intermediate vertical post (43) is placed between and equidistant from the posts (42 and 44) , the lower end of the intermediate upright (43) is placed against the upper face of the finned exchanger (16) and the length of the intermediate upright (43) being adapted so that its upper end is located between 10 and 20 cm from the ceiling, the transmitter (110) also comprising a separator (41) placed between the underside of the fins (16) and the fan support so as to separate the enclosure (118) into two parts (181, 182), said separator being located in the extension of the lower end of the upright (43) and aligned with the latter. Wall transmitter (110) according to Claim 10, in which the air flow 134 starting from the part (181) of the enclosure (118) passes through one half of the exchanger module and exits through the upper end of a first part half of the fins (16), the air flow rises and is led into an ascending channel (144) located between the upright (44) and the intermediate upright (43), the air flow then passes into a space of upper inversion (150) which connects the ascending channel to a descending channel (142) located between the post (42) and the intermediate post (43), the descending airflow (136) and entering through the upper end of the second half of the fins opens into the second part (182) of the enclosure (118), a cover plate (108) is placed on the channels (142, 144) so that there is no exchange of air between the part and the channels (142, 144), the circulation of the air is maintained by at least one fan (202) directed downwards and by at least one fan (201) directed upwards, the downward airflow drawn in by the fans (202) passes through a lower inversion space (135) before being drawn in by the upward directed fans (201). A wall transmitter (110) as claimed in claim 11, wherein the air volume pressure entering the portion (181) of the enclosure (118) from below and through the fans (201) increases and becomes even tends to distribute the volume of air uniformly in the part (181) of the enclosure (118) and tends to homogenize the rising air flow (134) entering between all the fins located opposite the part (181) and in which the pressure of the air entering the part (182) of the enclosure (118) from the top decreases and is homogenized which tends to distribute the volume of air uniformly in the part (182 ) of the enclosure (118) and tends to homogenize the descending air flow (136) entering the exchanger and between all the fins located opposite the part (182). Wall transmitter (110) according to one of Claims 10 to 12 associated with other wall transmitters (210, 310) of the same type forming a set of wall transmitters, the transmitters (110, 210, 310) being placed in series and wherein the direction of airflow in the wall transmitter (210) is reversed from the direction of airflow in the adjacent wall transmitter (110, 310). Wall transmitter (10) according to claim 6, 7 or 8, combined with a decentralized dual-flow ventilation device (50) comprising:
- a heat recovery device (51),
- two air ducts (52) and (54) connecting the exterior to the interior of the room, each duct (52, 54) being equipped with at least one axial supply and extraction fan (521 ) or (522), said extraction fan ensuring the exit of a flow of air, called stale air, from the room and said supply fan ensuring the entry of a flow of outside air, called air nine, in the room, the pipes (52, 54) respectively comprising an outlet (62, 64) in the room and an external outlet (525) provided with a grid,
- the outlets (62, 64) opening into the air supply zone (35) of the wall transmitter (10) are directed along the wall (6), respectively to the right and to the left. Wall transmitter (10) according to claim 14, wherein the direction of air flow in the ducts (52, 54) is opposite and periodically reversed so that said ducts operate alternately in extraction mode and in blowing mode. Transmitter (10) according to claim 15, in which when the thermal generator of the transmitter (10) is stopped, a first part of the fans (20) of the transmitter (10) is in operation, corresponding to the fans located on the outlet side of the blowing duct (52) or (54) and when the direction of air circulation is reversed in the ducts (52) and (54), the first part of the fans 20 stops while the second part starts. Wall-mounted transmitter (10, 110) according to one of Claims 1 to 13, in which the heat transfer fluid circulation tubes (15, 17) of the transmitters (10, 110) in the same room are connected to a heat generator of type heat pump (70) dedicated to the room and placed on the outer face of the wall (6) supporting the transmitter (10, 110). Wall-mounted transmitter (10) according to claim 14, 15 or 16, in which the tubes (15, 17) for the circulation of heat transfer fluid of the transmitters (10, 110) of the same part are connected to a heat generator of the heat pump type. heater (70) dedicated to the room and placed on the exterior face of the wall (6) supporting the emitter (10) so that the air entering the pump (70) is a mixture comprising the stale air expelled via the extraction duct (52) or (54) and fresh outside air sucked into a fresh air intake (72) by means of at least one fan (74). Wall transmitter (10) according to claim 18, in which the heat pump (70) comprises two exchangers, a first exchanger of which a stale air inlet (76) is placed on the outlet (525) of the extraction pipe ( 52) of the ventilation device (50) and a second exchanger of which a stale air intake (76) is placed on the outlet (525) of the extraction pipe (54) of the ventilation device (50). Wall transmitter (10) according to Claim 18 or 19, in which the heat pump (70) comprises a regulating device which controls the shutdown of the heat pump (70) according to a suitable defrosting algorithm for a given period during which the air entering the heat pump comes only from the outlet of the ventilation pipes (52) and (54) and allows the defrosting of the exchanger in winter. Heating or cooling system incorporating at least one wall transmitter (10, 110) according to one of claims 1 to 20.