FR2633380A1 - Device for air-conditioning premises using heat energy exchange by low-temperature infrared radiation - Google Patents

Abstract

The present invention relates to a device for air-conditioning premises comprising a flat element for exchanging heat energy by radiation. This device is characterised in that the exchanger element 3 consists of a thin panel 6, with a thickness of the order of a millimetre, passed right through by juxtaposed, contiguous or non-contiguous parallel inner channels 11 with a small cross-section (of the capillary type), the thin leaktight walls of which are made from a low-density material, and by two pipes 13 respectively forming a fluid collector and distributor, which are parallel and adjacent to the two ends of the panel 6 where the open ends of the juxtaposed inner channels thereof are situated.

Description

 The present invention relates to a device. air conditioning of a room b exchange of heat energy by low temperature infrared radiation.

 The devices for exchanging heat energy with an environment at a different temperature which are currently used. are essentially of the type using convection mode. Closed circuit devices almost exclusively heat the heating, while open circuit devices (forced air) can provide heating and / or cooling of industrial or residential premises. Other heating film devices use 1 electricity as an energy source and provide heat exchange by radiation. However, these devices can obviously only provide space heating and their use is therefore necessarily limited.

The present invention aims to remedy these drawbacks by providing a device with a particularly simple design. small footprint and weight. with high energy efficiency and able to provide air conditioning of premises by being used either as emitter or absorber of heat energy,
To this end, this air conditioning device for a room comprising a flat element for exchanging heat by low temperature infrared radiation. is characterized in that the exchanger element is constituted by a thin panel. of the order of a millimeter traversed right through by parallel internal channels juxtaposed contiguous or not. with a small straight section (capillary type). whose thin watertight walls. are made of a low density material. and two pipes respectively forming a collector and a fluid distributor, parallel and adjacent to the two ends of the panel oti are the open ends of the internal channels juxtaposed thereof.

these two ends being connected in a sealed manner to two longitudinal slots opposite the two pipes forming a manifold and distributor. which are connected in closed circuit to a source of cnloporteor fluid or fri goporteur so as to ensure the permanent circulation of this fluid through the channels of the panel, from the pipe forming distributor to the pipe forming collector.

 If the fluid circulating in the panel is at a temperature higher than that of the environment, it transfers heat energy to the benefit of this environment.

essentially by radiation. and the device then heats the room. On the other hand, the fluid is at a temperature lower than that of the environment. i receives heat energy from it and the device then contributes to the cooling of the room.

So that the panel ensuring the exchange of heat energy with the environment works essentially in the radiation mode. we make sure that the solid formed by this panel is of the type with small number of
Biot. this means that the rised paragraph radiation coefficient and the ratio of its volume to the exchange surface are as small as possible for a conductivity coefficient as large as possible.

 The panel is advantageously constituted by two parallel sheets of polymer or metal. of low density, connected together by thin partitions forming spacers and delimiting the internal channels of the panel which may have a square cross section. rectangular. circular or other.

 As the device according to the invention is inherently fragile. due to its very small thickness. with regard to voluntary or involuntary assaults of the shock type. cuts. accidental piercings, wear by friction. it is particularly advantageous to use it in a protected manner by latching it. in a room. away from a wall (wall or ceiling) of the room. by interposing. between the heat exchanger panel and the wall. an element reflecting the radiation towards the interior. from the local and tending. on the interior side of this room. a sheet parallel to the wall and made of a material permeable to radiation.

An embodiment of the present invention will be described below, by way of nonlimiting example, with reference to the appended drawing in which
Figure 1 is a vertical sectional view of the upper part of a room of a building in which is installed an air conditioning device according to the invention.

parallel to the room ceiling.

 Figure 2 is a plan view of the actual heat energy exchange device.

 Figure 3 is a sectional view taken along line III III of Figure 2.

 Figure 4 is a sectional view. on a larger scale. taken along line IV-IV of Figure 2.

 The air conditioning device which is shown in Figure l is mounted at the top of a room l and it extends parallel to the ceiling 2 of this room. The air conditioning device essentially comprises a planar heat exchanger 3 extending horizontally. that is to say parallel to the ceiling 2. while being interposed between a flat upper reflective element 4 and a flat lowered stretched sheet 5 also parallel to the ceiling 2.

 The heat energy exchanger 3 is constituted by a panel 6 of very small thickness. on the order of a millimeter. This panel is formed by two thin parallel sheets 7.8. made of a polymer or metal of low density, and which are connected together by thin partitions 9 forming spacers. These partitions delimit between them channels it which cross right through the panel and are open at their two opposite ends. In the non-limiting embodiment shown on the Sin. the channels It has a square cross section but they could also have a rectangular cross section. circular or other. The two opposite edges of the panel 6 where the orifices of the internal channels 11 are located are respectively in two pipes 12.13. closed at one of their ends 12n, l} a and open at their other ends 12b.13b. to be able to be connected. in closed circuit. to an installation for circulating a coolant or coolant, liquid or gaseous. In the example illustrated in the drawing, the pipe 12 is that through which the fluid is introduced and therefore constitutes the distributor while the other pipe 13 acts as a collector. the path of the fluid in the exchanger being indicated by the arrows. The two opposite edges of the panel 6 are engaged in longitudinal slots formed in the walls of the two pipes 12.13 and the fixing is carried out in a sealed manner. by means of seals 14.

 The coolant is a refrigerant which can be a liquid or a suitable commercial gas. is heated or cooled outside the premises by any known energy transformation device such as a boiler, heat pump. refrigeration unit with circulation pump, etc. It is possible to vary the amount of energy exchanged between the device according to the invention and its environment. for a given installed heat exchanger surface. by varying the speed of circulation of the fluid and / or its temperature.

 As shown in Figure 1 the heat exchanger 3 is advantageously interposed between the upper reflective element 4 and the lower sheet 5 which is made of a material permeable to radiation. The heat exchanger 3. the upper reflecting element 4 and the lower stretched sheet 5 are hung on the walls of the room. by any appropriate means.

 Naturally, because the device according to the invention is relatively fragile. due to the use of a very thin panel. it is preferable to make it in the form of small units which are connected to each other to cover the entire surface of a ceiling or a wall of a room. PRr elsewhere it is wise to provide means. such as a net, to support all of the individual air conditioning units forming the extended qrandP heat exchanger device.

Claims (2)

 1.- Device for air conditioning a room comprising a flat element for exchanging heat energy by radiation, characterized in that the exchanger element (3) is constituted by a panel (6) of small thickness, of the order of a millimbre , crossed by pert on the side of internal juxtaposed internal channels (11). whether joined or not, with a small cross-section (capillary type). whose thin watertight walls. are made of a low density material. and two pipes (12.13) respectively forming a manifold and a fluid distributor. parallel and adjacent to the two ends of the panel (6) ob are the open ends of the internal channels juxtaposed thereof. these two ends being connected in a sealed manner to two longitudinal slots opposite the two pipes (12.13) forming a manifold and distributor, which are connected in a closed circuit to a source of coolant or coolant so as to ensure the permanent circulation of this fluid through the channels of the panel (6). from the pipe (12) forming a distributor to the pipe (13) forming a collector.  2.- Device according to claim 1 characterized in that the heat exchanger (3) is housed at a distance from a wall (wall or ceiling) of the room. by interposing. between the heat exchanger panel (6) and the wall. an element (4) reflecting the radiation towards the interior of the room and tending towards the inside of this room. a sheet (5) parallel to the wall and made of a material permeable to radiation.