FR2774457A1 - Hot and cold air outlet for building - Google Patents

Abstract

The air outlet has a casing (1) with a front air inlet (2) having a heat exchanger (6) and side faces (5) for air discharge via axial blowers (13). The side faces form an obtuse angle with respect to the front face.

Description

HOT AND COLD EMITTER WITH AIR INLET THROUGH
FRONT FACE
DESCRIPTION
A transmitter will be described here, one of the characteristics of which is that the air enters through the front face of the envelope.

 The transmitters for domestic use, intended to cool or heat the air as the case may be, should not be too noisy, and it is also desirable that they are not too bulky. Convectors are known where the natural draft of the air is exploited, that is to say that the air flows in a vertical chimney in a direction defined by its density greater or less than that of the air. ambient depending on whether it has been cooled or heated in the chimney. As no mechanical member such as a fan drives the air, such convectors are perfectly silent, but they cannot be used in all situations and their flow rate is relatively low.

Other types of transmitters use fans; radial fans are commonly used, that is to say that the air leaves in a volute while moving away in the axis of rotation of the wheel, because they have the advantage of blowing a large air flow ; but they are particularly noisy, and the volute is bulky.

 The transmitter according to the invention has a structure which allows an easy circulation of air and at high flow rate without the need of a powerful fan: the air is entrained there by less powerful and noisy mechanical means. Other advantages of the transmitter proposed here are that it is relatively compact, since its depth is small and its width moderate; but that its height can be chosen more freely and become significant if we want the air flow to be greater, without this increase in elevation being seen as a disadvantage, since the transmitter is generally wall-mounted and that it is easier to find unused volume in the upper parts of the rooms than on the floor, it easily takes on a harmonious external appearance and pleasing to the eye.

 The transmitter is characterized in that it comprises an envelope with an air intake front face provided with a heat exchanger and lateral air outlet faces provided with axial fans.

 The overall dimensions are reduced if the lateral faces form obtuse angles with the frontal face; and if the envelope comprises a dorsal face composed of two rounded guide faces joined to the lateral faces, and joining by a ridge directed towards the front face, the pressure losses are reduced.

 The invention will now be described in more detail using FIGS. 1, 2 and 3 which are views from the front, side and from above of a possible embodiment of the convector.

 The figures will be described without distinction. The transmitter first comprises an envelope 1 carrying its equipment. This envelope 1 is of irregular shape and one can distinguish there a front face 2 directed towards the part to be cooled or to be heated, a dorsal face 3 to be hung on a wall, for example by studs 4, and symmetrical side faces 5, vertical and joining the previous ones. All these faces are vertical and can have a great height if desired. The front face 2 is open and receives a heat exchanger 6 screwed to the casing 1 and conventionally composed of a network of vertical tubes 7 traversed by a heating or cooling fluid. The ends of the network of tubes are connected to collectors and conduits 8 supply and recovery which extend into the wall and belong to a network of the building.

A grid 9 used to filter the air covers the exchanger 6 towards the front. A condensate pan 10 which can be emptied by a drain pipe 11 is screwed to the casing 1 and extends under it to receive if necessary condensed air humidity.

 The lateral faces 5 are pierced with circular cells 12 with the dimensions of axial fans 13, that is to say composed of a motor and a propeller designed to propel the air in the axis of rotation of the helix and without bending its flow. Only the right side face 5 is visible in Figure 1, but the device is symmetrical. The air therefore leaves the envelope 1 and the emitter by passing through the cells 12. As the lateral faces 5 make an obtuse angle with the front face 2 to reduce the depth of the emitter, the air is rejected obliquely into the room, without skirting the wall, which accelerates the room temperature setting. Additional cells 14 can be provided at the top of the side faces 5 in order to receive the electrical equipment for driving the fans 13, such as wires connected to the mains and a switch actuated by the user.

 We note that the dorsal face 3 is composed of two rounded sides 15 and symmetrical like the rest of the transmitter, which join by a first edge to the respective side faces 5 and join together by the other edge to form a ridge 16 directed towards the front face 2. Such an arrangement favors the separation of the air having passed through the exchanger 6 into two divergent streams and helps to guide it towards the fans 13.

 The transmitter is covered by a cover 17 (omitted in FIG. 2, and partially in FIG. 1) which has openings 18, that is to say horizontal slots, on oblique sides 19 and substantially parallel to the faces side 5 while extending over a greater width, which makes them conveniently used for the air outlet, with good dispersion. The cowling 17 also has a front face 20, extending in front of the front face 2 of the envelope 1 and which can be concave for aesthetic reasons. The front face 20 is pierced with numerous air inlet holes.

 The air enters the emitter by the front face 2 with a large opening area and ends up in a chamber where it is sucked in by the fans 13 by completing a short path in an open volume where the pressure drops are low. Its flow is moreover at substantially uniform speed and almost perfectly horizontal. It must be concluded that the circulation of air through the transmitter is only accompanied by fairly low pressure drops and requires only little energy that the axial fans 13 which are not very powerful and not very noisy are sufficient to supply. The narrowness of the side faces 5 leads to the use of small fans 13 which are therefore even less noisy, even if they can be numerous. It is also expected that they will rotate at low speed to reduce noise, which is further made possible by the low pressure drops.

For this, they can be powered at low load so that they rotate below their normal speed provided by the manufacturer. Finally, the transmitter can be built with a greater height defined by the needs of the user, adding fans if necessary.

Claims (5)

 1. Air transmitter, characterized in that it comprises an envelope (1) with a front face (2) for air inlet provided with a heat exchanger (6) and lateral faces (5) for outlet air with axial fans (13).  2. Transmitter according to claim 1, characterized in that the lateral faces (5) form obtuse angles with the front face (2).  3. Transmitter according to any one of claims 1 or 2, characterized in that the envelope comprises a dorsal face (3) composed of two rounded sides (15) of guide joined to the lateral faces (5) and, between them, by a ridge (16) directed towards the front face (2).  4. Transmitter according to any one of claims 1 to 3, characterized in that the fans rotate below a normal speed.  5. Transmitter according to any one of claims 1 to 4, characterized in that it comprises a cowling (17) covering the envelope, pierced with slots (18) on lateral faces (19) and holes on one face before (20).