FR2944860A1 - SMOKING SALON WITH AIR RENEWAL BY LAMINAR FLOW - Google Patents

Abstract

The present invention relates to a relaxation space, including smoking lounge, of the type comprising air renewal means provided with supply means (8) and suction means (20), said renewal means consisting of holes are distributed over the entire floor (13) and the ceiling (9) thereof, characterized in that the holes of at least the floor (13) consist of at least two parts, namely a part downstream opening into said expansion space and an upstream portion of larger section that the downstream portion opening on the other side of the floor (13).

Description

The present invention relates to a relaxation area and in particular a smoking lounge. Smokers are known, particularly in countries where legislation has imposed rules on the use of tobacco in public places, where smokers are grouped away from friendly places where non-smokers meet. Most of the time these smokehouses are devoid of attractiveness, especially for two main reasons, namely on the one hand their decoration and on the other hand their atmosphere which, lacking effective means of aeration, is often difficult to breathe due to the unpleasant odor they emit, smell that users then find on their clothes.

It is known in fact that the aeration means used in the premises where it is desired to ensure a renewal of the comfortable air, whether or not these aeration means provide an additional function of air conditioning, are generally lack of efficiency when it is desired to use them for ventilation of smoky premises. Most of the time these aeration means consist of small air vents that are able to bring into the room a stream of clean air and to extract from it a stale airflow. It is thus conducted, when it is desired to quickly renew a large volume of air from a room from small blow / suction mouths, to use a flow of air with a speed of circulation relatively important. Under these conditions a problem arises due to the fact that beyond a certain speed, this air causes, in the skin of the users of the premises, a feeling of cold, even in the case where the pulsed air is found at a temperature usually considered to be a comfort temperature when the air is static. This is the so-called airflow phenomenon. A solution to have a comfortable air volume renewal while maintaining it at a reasonable speed, that is to say not creating vis-à-vis users a feeling of cold, is to increase the diameter of the vents and air ducts. One then comes up against a difficulty, insofar as the ducts are usually arranged in the false ceilings of the houses, and this increase in volume of the ducts then results in a loss of volume difficult to qualify. Japanese Patent JP 06 229584 and JP 04 161749 have proposed making air conditioning devices in which the air is supplied from the ground from a perforated plate which is pierced with a multitude of holes and extends over the surface of the room to be air conditioned. This air is pulsed with a piston effect and evacuated by the ceiling which, for this purpose, is also on all its surface pierced with a multitude of holes. It has been found, however, that the air passing through a perforated plate, in other words a thin wall, had a tendency, when the holes were of small diameter, that is to say of the order of 2 to 5 mm, to generate significant flow noises, or even whistles. However, when one wishes to achieve a relaxation space it is desirable both on the one hand that the floor holes are of small diameter to avoid the potential problems related to small female heels and other On the other hand, it is possible to benefit in this space from a silence which is not disturbed by ventilation noises.

The present invention aims to overcome these disadvantages by providing a relaxation space in which the air renewal means are able to clean up without difficulty the entire volume of it, without creating at the level users a feeling of cold or any air flow and this by performing a renewal of air by laminar current. Another object of the present invention is to provide such a relaxation space, the air supply of which is made from the total surface of the floor and the suction from the entire ceiling, without the need for in air does not generate any air flow or noticeable airflow noise. The present invention thus relates to a relaxation space, including smoking lounge, of the type comprising air renewal means provided with supply means and suction means, said renewal means being constituted by holes which are distributed on the entire floor and the ceiling thereof, characterized in that the holes of at least the floor consist of at least two parts, namely a downstream portion opening into said expansion space and an upstream portion of larger section than the downstream part leading to the other side of the floor.

The output section of the downstream hole will preferably be of the order of a quarter of the section of the upstream hole. The holes will usually have a circular cross section and the diameter of the downstream hole may be between 2 and 5 mm and will preferably be of the order of 3 mm. Moreover, the diameter of the upstream hole may be between 8 and 20 mm and will preferably be of the order of 15 mm.

In an alternative embodiment, the holes may consist of a downstream hole, an upstream hole, and an intermediate hole. The diameter of the upstream hole may be of the order of 12 mm and the diameter of the intermediate hole may be of the order of 8 mm. The length of the downstream hole may be between 5 and 8 mm and preferably be equal to 6 mm. The length of the upstream hole may be between 20 and 60 mm and preferably be equal to 40 mm. Finally, the length of the intermediate hole may be between 5 and 15 mm and preferably be equal to 10 mm. According to the invention the air supply means will be active from the floor of the room and the suction means will be active from the ceiling thereof.

In a preferred embodiment of the present invention the relaxation space will include a false floor and a false ceiling in which the holes will be drilled, the latter being evenly distributed, especially with a distribution density of the order 3000 / m2, on all of them and will be distributed in particular form of staggered. Preferentially, the air will be blown through the floor and sucked by the ceiling and a higher buffer volume will be provided between the ceiling and a false ceiling in which the suction means will emerge. Likewise, a lower buffer volume will be provided between the floor and the floor in which the air supply means will open. The means for supplying and extracting air from the floor may consist of a monobloc double flow ventilation, possibly provided with a heat recovery device, and air conditioning means. The flow of air will be made of a laminar type.

Preferably, the air supply means will be provided with temperature and hygrometry control means, these means possibly being provided with control means able to control them, modify them and ensure their maintenance at a distance. In an advantageous variant of the invention the relaxation space will constitute a modular assembly suitable for combining with other modules of the same type. These modules will comprise a structure comprising a floor and a floor, a ceiling and a false ceiling, side walls, possibly made of glass, provided with at least one opening, and a wall delimiting a box receiving all the technical means of air treatment. These may of course be independent.

The air supply and suction will be through collectors respectively connected to the blowing means and the suction means. The flow of the suction means will preferably be greater than the flow rate of the blowing means, so as to create in the expansion space a slight depression with respect to the external atmosphere. Furthermore, the base of the access door will be provided with means capable of creating in front of the latter a curtain formed by a flow of air at a higher speed than the speed of the treatment air in said space. The means for creating this air curtain will consist of a slot which will extend at least over the width of the door and which will be fed by means able to blow said air flow at the opening of the door. this.

The present invention also relates to a modular housing intended, by the junction of several thereof, to constitute a false floor and / or a false ceiling of a relaxation space, in which one admits in the latter a flow of pressurized air through holes evenly distributed over the entire floor surface and this airflow is evacuated by holes regularly distributed over the entire surface of the ceiling, characterized in that the box comprises a horizontal main face piercing said holes and side faces pierced with at least one communication orifice of all the boxes, the air being blown under pressure in the expansion space from the boxes forming the floor and sucked into this space by the caissons forming a ceiling.

Preferably, the modular box will comprise means able to connect it to the caissons that are adjacent to it. Furthermore, the holes may consist of at least two parts, namely a downstream portion opening into said expansion space and an upstream portion of larger section that the downstream portion opening on the inside of the box. Finally the modular box may be intended to constitute a floor and / or a ceiling of a relaxation area having all the previously described specificities. An embodiment of the present invention will be described hereinafter by way of nonlimiting example, with reference to the appended drawing, in which: FIG. 1 is a diagrammatic view in vertical section illustrating the operating principle of FIG. 2 to 6 are partial longitudinal sections of the air supply holes of the expansion space according to the invention; FIG. 7 is a schematic diagram of the means for 8a and 8b are diagrammatic views of an expansion space according to the invention made in modular form respectively seen from above and in elevation, - FIG. schematic view in partial vertical section of an alternative embodiment of the invention, - Figure 10 is a perspective view showing a box used for the supply and / or aspiration of air from space relaxing according to the invention, - Figures 11 to 15 are alternative arrangements of the boxes, - Figure 16 is a cross-sectional view of a securing element of the boxes. FIG. 1 shows a relaxation space constituted in this instance by a smoking lounge 1 according to the invention which is constituted from an architectural envelope formed by wall walls 3, a ceiling 5 and 7. In order to form the smoking room, a false ceiling 9 has been placed under the ceiling 5 at a certain distance from it, so as to constitute between them an upper buffer volume 11 which will constitute, as explained hereinafter , an air collector. Likewise, above the ground 7, a support slab 13, or floor, has been disposed at a distance from it, so as to provide a lower buffer volume between them, also forming a collector. The false ceiling 9 and the floor 13 are drilled over their entire surface with holes 16 which are uniformly distributed, in particular staggered. The distribution density of these holes is of the order of 3000 per m2. It would of course be possible to adopt another arrangement of the holes or another density of the latter as a function of the flow parameters of the air flow, as mentioned below.

It will be recalled that the known type of blower floors consist of metal plates pierced over their entire surface with a large number of holes. Because of the short length of each of these holes, the flow of air passing through them does not undergo a significant loss of pressure, but it has been found that the flow of air through them has the effect of generate significant flow noises. According to the present invention it is desired to produce the floor 13 in a solid material such as wood, preferably in noble woods, marble, glass, etc. It is understood that a floor made of such materials, to be sufficiently resistant to ensure the maintenance function of its own, must be provided with a significant thickness compared to that of a plate of the previous state of the technique. This is why, in these conditions, the holes, especially when they are of small diameter, generate significant pressure drops. However, because of the very vocation of the relaxation spaces according to the invention the holes must be of small diameter to be below that of a shoe heel, in particular of the so-called stiletto-heel type. The holes used in the context of the present invention must therefore be of small diameter, generate only low pressure losses and nevertheless provide a high air flow without creating noise in the flow of the air. It was found that by making upstream of the part of the hole that opens into the room to be treated another hole of larger diameter, it was solved at the same time the problems relating to the pressure drop and the problems relating to the noise generated by the flow of air through a thin member is of the order of 5 to 6 mm.

In a first embodiment of the invention which is shown in Figure 2, the floor 13 is made of solid wood, such as oak in particular, of thickness e of the order of 30 mm. Furthermore, the downstream portion 16a of the hole 16 which opens into the smoking lounge 1 has a diameter d1 of the order of 2 to 5 mm and preferably close to 3 mm and has a length el of the order of 4 to 7 mm and preferably close to 6 mm. Upstream of this portion 16a was made another hole portion 16b of diameter d2 equal to at least twice the diameter d1 of the hole portion 16a. The length of the portion 16b extends over the remainder e2 of the thickness of the floor 13. As shown in Figure 3 the floor 13 can be made in two parts which are superimposed, namely on the one hand a base 13a whose thickness e2 may be equal to that of the hole portion 16b and which may for example be made of a material having good absorbing qualities both thermally and acoustically and on the other hand a surface layer 13b of which the thickness will be equal to the upper hole portion 16a and which will be made of a material capable of withstanding friction and shocks and which will be made of a more noble material so as to give the floor 13 a quality appearance. Moreover, giving the upstream portion 16b holes 16 a larger diameter will facilitate the proper relative positioning of the two floor portions 13a and 13b. In order to improve the flow of air into the holes 16 while avoiding the whirlwinds generating parasitic noise, it is possible, as shown in FIG. 4, to stagger the hole portion d2 by making a third part 16c of intermediate diameter d3. disposed just upstream of the downstream hole portion 16a.

As previously, and as shown in FIG. 5, each hole portion 16a, 16b, 16c may be made in a layer of different material, each having specific characteristics. Thus, the lower layer will constitute the mechanical support and may be made for example in agglomerated type wood, the intermediate layer may be made of a material having good absorbing qualities both thermally and acoustically and the surface layer may be made a material capable of withstanding friction and shocks and which will be made of a more noble material capable of giving the floor 13 a quality appearance. It is also possible, as shown in FIG. 6, to give the hole portion 16b disposed upstream of the downstream exit hole 16a, the shape of a convergent having the effect of further reducing the flow disturbances which are generating noise. The holes 16, in particular for rasons related to their manufacture, will usually be of circular cross section, but they may also for certain specific applications have other shapes, including square. As shown in FIG. 7, the lower buffer volume 15 is provided with a pressurized air supply line 18 and the upper buffer volume 11 is provided with a suction line 20. It is understood, under these conditions The volume of the living room is traversed by a flow of air from the bottom to the top, which has been particularly effective for the evacuation of fumes generated therein. Preferentially, the air flow rates will be adjusted so that the flow inside the smoking lounge is of laminar type.

In one embodiment of the invention, the air intake flow Q1 will be set to a value greater than the supply flow rate Q2 so as to maintain a slight depression in the salon. Such an arrangement avoids, especially when the living room is used as a smoking room, the propagation to the outside of the fumes generated inside thereof. The suction flow Q1 will be such that it allows to renew the air in the living room between twenty and fifty times per hour and preferably about thirty times per hour. Thus for example in the case of a living room of 45 m3 the suction flow Q1 will be between 900 and 2200 m3 / h and will preferably be of the order of 1500 m3 / h. It will be necessary to supply the lower box with a flow rate Q2 of the order of 30% lower than the suction so as to bring the volume of the living room in slight depression. Thus, if for example the suction flow rate is 1500 m 3 / h, the blast flow rate in the box will preferably be of the order of 1100 m 3 / h.

It was found in these conditions that the atmosphere in the living room was most pleasing to its occupants and that they did not suffer any discomfort as well on the olfactory, phonic, and thermal, than on that of the possible currents of air .

FIG. 7 shows an example of supply / extraction and air conditioning means in the living room 1. The air supply duct 18 is connected via a sound absorber 22 at the outlet 23 of a double flow ventilation unit 25, and the air extraction line 20 is connected, via a sound absorber 26, to the inlet 27 of the ventilation block 25 The latter sucks in fresh air through its inlet duct 29.

Optionally a heat pump 31 is disposed on a branch 33 at the outlet of the ventilation block 25 and allows, as needed, to heat or cool the air that is pulsed in the living room 1.

In an alternative embodiment of the invention, which is shown diagrammatically in FIGS. 8a and 8b, the expansion space is of modular and transportable type, that is to say that all its elements form a autonomously movable assembly. This assembly thus consists of a structure formed of a floor 7 and a perforated floor 13 delimiting the air supply box 15, a ceiling 5 and a perforated false ceiling 9 delimiting the upper box. suction 11, and glass walls 3 '. The bottom of the living room 1 is closed by a partition 35 defining a rear volume constituting a technical room 37 receiving the means of supply / extraction and conditioning of the air. Such a living room can be disposed of permanently or temporarily in any place where power supply means are available.

The different modules can be combined with each other, so as to form an overall volume adjustable on the surface, according to the wishes of the users. The means for supplying and regulating the air of the relaxation spaces according to the invention may be provided with remote control modules making it possible to centrally monitor relaxation areas belonging to several users and to intervene to regulate them. modify or repair them remotely and this specifically to match the wishes of each.

In another variant embodiment of the present invention, the orifices giving access to the outside, such as, in particular, the door 34 for access to the living room, or the possible pass-plates, may be provided with an air curtain. intended to prevent any leakage of fumes from the inside to the outside atmosphere and this, as previously specified, to avoid, when the space of relaxation acts as lounge smoker, any pollution of the surrounding volume by the possible smoke from the living room.

This air curtain is obtained, for example as regards the doors 34 for access to the living room, and as shown in FIG. 9, by producing in the floor 13 of the room and over the entire width of the doors 34 a slot 39 by which, at the opening of the doors 34 is pulsed from the bottom upwards a flow of air at a higher speed than that of the room air. For this purpose, as shown in FIG. 9, it is possible, for example, to make a box 41 surrounding the slot 39 which is fed by pressurizing means 43 which are activated by detection of a feeler 45 connected to the door as soon as possible. the opening of the latter and which are deactivated when the latter closes. It is also possible to make a mini box where the air is kept constantly in overpressure and is provided with opening control means which are activated as soon as the door is opened or permanently. In an advantageous variant of the present invention, the floor and / or the ceiling of the living room may be made of modular elements that will be arranged and assembled side by side adjacent. Advantageously, these modules may be formed of boxes whose internal volume respectively forms the air distribution buffer volumes of the ceiling and the ground. As shown in FIG. 10, each box 50 consists of a horizontal main face 52, of square shape in the present example, and lateral faces 54. These boxes are assembled, as shown in FIG. adjacent, that is to say that they are joined by their side faces 54 so as to fill the total area provided by the living room or the living room module which they must constitute the floor or ceiling. It is thus possible to use modular boxes 50 of square shape whose arrangement is that of a local. They can thus be arranged in length, as shown in FIG. 11, or in the shape of an L or a T as shown in FIGS. 12 and 13. In order to facilitate the match between the shape and the dimensions of the room with those corresponding boxes 50 some of these, the boxes 50a in Figure 14, may be smaller, for example half of the boxes 50. It can of course be used to modular boxes of different shapes such as for example rectangular , or triangular as shown in Figure 15, wherein the boxes 50c have the shape of equilateral triangles or equilateral half-triangles 50d. Such an arrangement, in addition to the aesthetic effect produced, makes it possible to fill the shape and the surface of the room in which it is desired to create a relaxation area and in particular a smoking room. According to the invention the lateral faces 54 of the caissons 50 are pierced with openings 56 intended to allow free circulation of air inside the caissons from the arrival or arrival of air. These openings 56 are arranged such that, when the lateral faces 54 of two adjacent boxes are assembled, they are opposite. Advantageously modular boxes 50 are provided with fixing means to ensure their connection and their sealing against the air. It is thus possible to use screws, or clips 55, which are arranged in housings dug for this purpose, for example in the lateral faces 54, as shown in FIG. 16. Such clips 55 consist, for example, of two complementary elements which are arranged in areas of the side faces 54 which are opposite when the modular boxes 50 are in place. One of the complementary elements of these clips may comprise a deformable tongue 61 which, when the implementation, when applying a clip member on the complementary element is positioned in the latter to block any withdrawal of it.

One could of course use any other fastening element for securing the different modular boxes 50 between them. Moreover, the main faces 52 of the modular boxes 50 will be pierced with holes 16 making it possible to inject the blast stream into the room. These holes will of course be of the same type as those previously described in the implementation mode of a floor without boxes. The main face 52 may either constitute the walking surface or, on the contrary be covered with a plate 60 made of a more noble material and / or stronger than that used to form the caissons 50.

Claims (1)

CLAIMS1.- Relaxation space, including lounge smoker, of the type comprising air renewal means (25) provided with supply means (18) and suction means (20), said renewal means being constituted of holes (16) distributed over the entire floor (13) and the ceiling (9) thereof, characterized in that the holes (16) of at least the floor (13) consist of at least two parts, namely a downstream portion (16a) opening into said expansion space and an upstream portion (16b) of larger section than the downstream portion opening on the other side of the floor (13). 2. Relaxation space according to claim 1 characterized in that the outlet section of the downstream hole (16a) is of the order of a quarter of the section of the upstream hole (16b). 3.- Relaxation space according to one of claims 1 or 2 characterized in that the holes are of circular cross section and the diameter (dl) of the downstream hole (16a) is between 2 and 5 mm and preferably from order of 3 mm. 4.- relaxation space according to one of the preceding claims characterized in that the diameter (d2) of the upstream hole (16b) is between 8 and 20 mm and preferably of the order of 15 mm. 5.- relaxation space according to one of the preceding claims characterized in that the hole 16 is constituted by a downstream hole (16a), an upstream hole (16b), and an intermediate hole (16c). 6. Relaxation space according to claim 5 characterized in that the diameter of the upstream hole is of the order of 12 mm and the diameter of the intermediate hole is of the order of 8 mm. 7. Relaxation space according to one of the preceding claims characterized in that the length (el) of the downstream hole (16a) is between 5 and 8 mm and is preferably equal to 6 mm. 8.- relaxation space according to one of the preceding claims characterized in that the length (e3) of the upstream hole (16b) is between 20 and 60 mm and is preferably equal to 40 mm. 9. Relaxation space according to one of claims 5 to 8 characterized in that the length (e2) of the intermediate hole (16c) is between 5 and 15 mm and is preferably equal to 10 mm. 10. Relaxation space according to one of the preceding claims characterized in that the air supply means are active from the floor (7, 7a) of the room and the suction means are active from the ceiling ( 5,5a) thereof. 11. Relaxation space according to one of the preceding claims characterized in that it comprises a false floor (7b) and a false ceiling (5a) in which the holes (16) are drilled, the latter being distributed regularly on all of them. 12.- relaxation space according to claim 11 characterized in that the holes (16) are arranged in staggered rows. 13. Relaxation space according to one of the preceding claims characterized in that the hole distribution density (16) is of the order of 3000 / m2. 14.- Relaxation space according to one of the preceding claims characterized in that the air is blown by the floor (13) and sucked by the ceiling (9). 15.- relaxation space according to one of the preceding claims characterized in that an upper buffer volume (11) is provided between the ceiling (9) and a false ceiling (5) into which the suction means (20) ). 16.- Relaxation space according to one of the preceding claims characterized in that a lower buffer volume (15) is provided between the floor (13) and the ground (7) in which the air supply means open (18). 17.- Relaxation space according to one of the preceding claims characterized in that the means for supplying and extracting air from the floor (13) consist of a monobloc ventilation double flow (25), optionally provided a heat recovery device, and air conditioning means. 18.- Relaxation space according to one of the preceding claims characterized in that the flow of the air flow is of laminar type. 19.- Relaxation space according to one of the preceding claims characterized in that the air supply means (25) are provided with means for controlling the temperature and humidity (31). 20.- Relaxation space according to one of the preceding claims characterized in that the temperature and humidity control means (31) are provided with means adapted to control, modify and ensure their remote maintenance. 21. Relaxation space according to one of the preceding claims characterized in that it constitutes a modular assembly adapted to combine with other modules of the same type. 22.- relaxation space according to claim 21 characterized in that each module comprises a structure comprising a floor (7) and a floor (13), a ceiling (5) and a false ceiling (9), side walls ( 3), possibly glass, provided with at least one opening (34), and a wall (35) delimiting a box (37) receiving all the technical means of air treatment. 23.- relaxation space according to one of the preceding claims characterized in that the air supply and suction are through the collectors (15,11) respectively connected to the blowing means (8) and to suction means (20). 24.- relaxation space according to one of the preceding claims characterized in that the flow (Q2) of the suction means is greater than the flow (Q1) of the blowing means, so as to create in the relaxation space a slight depression compared to the outside atmosphere. 25.- relaxation space according to one of the preceding claims characterized in that the base of the access door (34) is provided with means (39,43) adapted to create in front thereof a curtain formed of a air flow at a higher speed than the speed of the treatment air in said space. 26.- relaxation space according to claim 25 characterized in that the means for creating the air curtain consist of a slot (39) which extends at least over the width of the door (34) and which is powered by means (43) able to blow said air flow at the opening thereof. 27.- Modular box (50) intended, by the junction of several of these, to constitute a false floor and / or a false ceiling of a relaxation space according to one of claims 1 to 26, wherein admits in the latter a flow of pressurized air through holes (16) regularly distributed over the entire surface of the floor and this air flow is evacuated by holes (16) evenly distributed over the entire surface of the ceiling, characterized in that the box (50) comprises a horizontal main face (52) pierced with the aforesaid holes (16) and side faces (54) pierced with at least one communication orifice (56) of all the caissons (50), the air being admitted under pressure into the boxes (50) forming the floor (13) and sucked by the ceiling boxes (9). 28. A modular housing according to claim 27 characterized in that it comprises connecting means (55) to the caissons (50) adjacent thereto. 29.- A modular housing according to claim 28 characterized in that the holes (16) consist of at least two parts, namely a downstream portion (16a) opening into said expansion space and an upstream portion (16b) more large section that the downstream part opening on the inside of the box. 30.- Modular box intended to constitute the floor (13) and / or the ceiling (9) of a relaxation space according to one of claims 1 to 26.