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    • 专利摘要:
    Nebulizing device (40) of elongated overall shape, acoustic ultrasonic concentrator type, comprising - an elongated bottom frame (4), comprising a tray module (5) and a nozzle module (9), an elongated electronic housing (8) located in the projection of said lower frame (4); an upper part (2) comprising a fog outlet tube (23) and a ventilation means (24) capable of generating a flow of air through said fog outlet tube (23); wherein the device: - said nozzle module comprises an ultrasonic acoustic concentrator nozzle (49) provided with at least one liquid inlet port (51) and at least one liquid outlet port (50) and at the opposite side of said outlet (50) a piezoelectric element (46) adapted to emit acoustic waves into said liquid, and the cross-section of said nozzle (49) having a progressive narrowing towards said first port of outlet (50), so that in said nozzle (49) the acoustic waves are focused to create a mist of droplets; - a circulation pump (42) is connected on the one hand to the tank (7) and on the other hand to said nozzle (49) by the at least one inlet orifice (51) arranged in said nozzle (49), said circulating pump (42) being adapted to generate in said nozzle (49) a liquid pressure sufficient to maintain a liquid jet (53) exiting through said outlet port (50) of the nozzle (49); the upper part is arranged above the lower frame (4), so that the rear part of said fog outlet tube (23) is at least partially inside the tray module, and the tube (23) fog outlet is projected towards the front of the device, - said electronic box (8) is located behind said lower frame (4).
    公开号:FR3023735A1
    申请号:FR1456863
    申请日:2014-07-17
    公开日:2016-01-22
    发明作者:Michel Gschwind;Frederic Richard;Abbas Sabraoui
    申请人:Areco Finances et Technologie ARFITEC SAS;
    IPC主号:
    专利说明:

    [0001] TECHNICAL FIELD OF THE INVENTION The invention relates to nebulization systems capable of generating a mist of micro-droplets of a liquid, for example water, for the purpose of cooling the atmosphere. and more particularly the small nebulizer systems that can be mounted on a sales stand to moisten and freshen fresh products for sale. State of the art Such systems are known as such. Patent EP 0 691 162 discloses a nebulization system with a concentration nozzle in which a piezoelectric element immersed in water generates a mist of water droplets at the outlet of a nozzle which concentrates the ultrasound generated by said piezo element -electrical at its point of exit; the fog is then carried away by a stream of air generated by a fan. This nozzle is generally arranged vertically, with the focusing output pointing upwards; The object of the invention is to provide an improved nebulizer device, which can be used to moisten and / or refresh goods, especially fresh products. , exposed for sale on a stall, or to humidify and / or refresh and / or perfume the atmosphere for other purposes, for example to cool and / or refresh and / or perfume (and / or disinfect) a volume such as a room or car interior, and is compact, rugged, reliable, inexpensive and easy to use, easy to maintain, and energy efficient as possible.
    [0002] The requirement of compactness results from the need for a small overall size of the device, and in particular of a limited height, which is particularly strong when the device is to be integrated in a vehicle interior or under a table or stand. The requirement of robustness results from the need for resistance of the device against disturbed conditions, and its reliable operation in disturbed conditions, such as mechanical movements (acceleration, braking, vibrations, shocks, slope variation). It also results from the desire to avoid frequent maintenance of the nebulizer. The requirement of simplicity of use results in particular from the practical impossibility of asking the user to ensure the regular supply of the nebulizer water. The requirement of lightness results from the general need to limit the mass that is added to a vehicle (and in particular to an aircraft) by adding additional options and functions; the lightness in any case facilitates maintenance when it comes to handling the device, and it also tends to reduce the environmental impact of the device. The requirement of low energy consumption results from the general desire to reduce the environmental impact of products, devices and machines in their life cycle. The price requirement argues in favor of a simple construction device. The problem is solved by a new construction device that has three parts (modules): A body with the water tray; this body constitutes a lower part of the apparatus. (ii) an upper portion having a water jet collecting tube and an elongated tip through which fog generated by the system escapes; this upper part is placed on the body. (iii) An electronic box attached to the body, detachably or not, and which can be opened and / or retracted to facilitate maintenance. The apparatus according to the invention is narrow and compact and can be fixed on slides below the table or stand (it can also be fixed above the table), and can be taken out and disconnected. easily to put it on a table or bench for maintenance work. The water tray is removable and can be easily replaced. Each of the three bodies is of substantially elongated shape, with the longitudinal axis substantially parallel to the direction of the elongate nozzle through which fog 25 / and or the direction of the water jet collection tube. The device comprises a collection tube adapted and arranged to collect the jet of liquid exiting the outlet orifice and to empty into said collection tank. This tube can be inclined relative to the vertical. This collection tube can be traversed by a stream of air, which carries the mist of droplets to its outlet. This further decreases the height of the device and simplifies its construction. Advantageously, the collection tube is extended in the elongated nozzle through which the fog generated by the system escapes.
    [0003] The device according to the invention advantageously comprises ventilation means for creating an air flow which carries said mist of droplets towards the outside of said device. This ventilation means can be located in said upper part. In an advantageous embodiment, air enters the system through said venting means, passes through the collection tube or a tube into which the collection tube is inserted, and leaves the system through said elongated tip. Thanks to its acoustic wave focusing nozzle generated by a piezoelectric element, the nebulizing device according to the invention is able to create and spread a mist formed of droplets with a typical average diameter of between 0.5 μm and 25 μm. preferably between 1 pm and 10 pm, and even more preferably between 1 pm and 5 pm. The said liquid to be nebulized is preferably water, which may comprise additives, such as perfumes and / or disinfectants (for example: H 2 O 2, peracetic acid, citric acid).
    [0004] Said nozzle is preferably disposed in the axis of the collection tube, and therefore preferably slightly inclined relative to the horizontal. This helps decrease the height of the device. The device according to the invention is particularly suitable for tables or stalls with an area up to about 5m2 or more, but smaller models can be made suitable for tables or stalls with an area of less than about 3 m2. In general, said circulation pump may be of any suitable type; a centrifugal propeller pump is suitable. The device according to the invention may also comprise at least one means for detecting a lack of liquid associated with a feedback loop in order to cut or reduce the intensity of the acoustic waves emitted by the piezoelectric element in case of lack of 'water. This detection means may be a sensor (for example a water level sensor in the primary reservoir, and / or a pressure sensor in the pressurizing chamber), or a plurality of sensors, and / or may comprise a measurement of an electrical parameter of the circulation pump.
    [0005] In an embodiment that can be combined with all the others, the longitudinal axis of said nozzle forms an angle of inclination with respect to the horizontal which is between 0 ° and 45 °, preferably between 0 ° and 30 ° and even more preferably between 5 ° and 20 ° _ This allows a particularly compact device construction.
    [0006] In an embodiment that can be combined with the above, the collection tank and said nozzle form a single block. Advantageously, the upper part and the body are made of molded plastic (preferably reinforced with glass fibers, for example at least 10% by weight, or at least 200/0 by weight, or about 30% by weight. mass%); this allows a light and yet robust construction, in the logic of an ecodesign. The lightness is advantageous for embedded devices. It also facilitates maintenance if, as is possible with the device according to the invention, the apparatus is withdrawn integrally from its location (for example under the stand or the table it equips). The plastic is preferably a food contact plastic, so as not to contaminate water and fog with traces of undesirable products from plastic materials. Advantageously, a recyclable plastic is chosen. The device may comprise a heating means capable of evaporating the residual liquid in said device, and in particular in the tank, after it has stopped. The same heating means can be used to heat the water contained in the device at a temperature sufficient to reduce its pathogen content. Another object of the invention is a method of starting a device according to the invention in which (a) liquid is introduced into the tank; (b) when the level of said liquid rises in said tank to a preset point which is detected by a liquid level sensor in the tank, the circulation pump is operated; (c) the circulation pump creates sufficient liquid pressure for the liquid to be able to invade the nozzle, possibly after having invaded the pressurizing chamber, and to form a stable liquid jet which exits the exit orifice knowing that during at least part of this time, additional liquid is introduced into the tank; (d) when the level of said liquid in said tank has reached a preset point which is detected by a level detector, the power supply of the piezoelectric element is activated to create liquid droplets. In step (d) said preset point and / or said level detector may be as in step (b). Figures The device according to the invention is illustrated schematically in Figures 1 to 10 which show different views and / or different embodiments. Figure 1 shows an exploded view of the device showing its upper part, its lower frame and its electronic box closed by a hood. Figure 2a shows a side view, Figure 2b a front view of the same device. Figure 3 shows an exploded view of the electronic box with its cover that protects the electronic card. Figure 4a shows the side view of a vertical longitudinal section of the device, Figure 4b shows the same section of the same device with liquid levels in normal operation. Figure 5 illustrates the implementation of the device under a table or under a stall. Figure 6 illustrates the positioning (Figures 6d and e) and the removal (Figures 6a, b and c) of the device under a stall; Figure 6d shows the perspective side view of a vertical longitudinal section of the device, Figure 6e is a perspective side view thereof. Figure 7 shows the side view of a longitudinal section of the device according to another embodiment of the invention. Figure 8 shows an exploded perspective view of the upper part of the device according to a particular embodiment. Figures 9a and 9b show a perspective view of a particular embodiment of the attachment of the piezoelectric element. FIG. 10 shows a perspective view of a particular embodiment of the device according to the invention in which the cover (FIG. 10a: closed, FIG. 10b: open) is fixed by lateral hinges. Figure 11 shows the side view extract of a longitudinal section of another embodiment of the upper part of a device according to the invention. List of references used in the figures: 1 System 35 Fastening element 2 Upper part 36 Joint 3 Cover 37 Hole 4 Lower frame 38 Rear wall of chamber 52 Tank module 39 Liquid level sensor 6 Radiator 41 Solenoid valve 7 Tray 42 Circulating pump 8 Electronic housing 43 Level sensor 9 Nozzle module 44 Water inlet 10 Nebulizer (diffuser) 45 Heating element 11 Slide 46 Piezoelectric element 12 Quick connection of tip 22 47 Drain 13 Home compartment 48 Plate Stabilization 14 Fog duct 49 Acoustic concentrator (nozzle) 15 Diffuser mast 50 Nozzle outlet 16 Nebulizer port 10 (diffuser) 51 Nozzle inlet port 21 Air inlet 52 Pressurizing chamber 22 Exit nozzle fog 53 Jet of liquid 23 Fog outlet tube 54 Upper part body 2 24 Fan 55 Seal ring 30 Electronic board 56 Throat 31 Comp Electronic components 57 Connector 32 Electrical connector or cable 58 Hinge 33 Support for piezoelectric element 60 Table (stand) 34 Hole in support 33 Detailed description The fog diffused by the system (device) 1 according to the invention is generated by the module nozzle 9 which comprises a piezoelectric element 46 stimulating the formation of fog from a liquid that circulates in the system and more specifically in the lower frame sound 4. Said nozzle module 9 comprises an acoustic concentrator (nozzle) 49 open to the fog outlet tube 23 of the upper part of the system 1. The nozzle module 9 comprises a concentration nozzle 49 (also called acoustic concentrator), of known type, capable of containing a liquid to be sprayed (typically water) and having an outlet port 50, the cross section of the interior of said concentrator nozzle 49 having a progressive narrowing in the direction of said outlet port 50. Said nozzle 49 further has, on the side opposite its outlet port 50, a piezoelectric (ceramic) element 46 adapted to emit acoustic waves in the liquid. The inner wall of said nozzle 49 is made of a hard material capable of reflecting the acoustic waves generated by said piezoelectric element 46. Advantageously, the convergent shape of the inner walls of the nozzle 49 is determined so as to focus the ultrasonic acoustic waves. Sonic at a location near the central portion of the outlet port 50; thus a mist of micro-droplets of the liquid to be sprayed is generated when the nozzle 49 is filled with liquid and the piezoelectric ceramic 46 emits acoustic waves of appropriate frequency and intensity. Said convergent shape of the inner walls of the nozzle 49 advantageously has a radial symmetry. This convergent form is preferably parabolic, which improves the efficiency of the concentration nozzle 49.
    [0007] According to the invention, and as illustrated in Figure 4a, the longitudinal axis of the nozzle 49 is inclined relative to vertical ta. This inclination, expressed by the angle α with respect to the horizontal, is intended to reduce the total height of the system 1 and in particular of its upper part 2. The angle α may be less than 45 °, preferably less than 30 °. ° and even more preferably less than 20 °. In the context of the present invention, an angle α of between 0 and 30 ° and preferably between 5 and 20 ° is preferred. In addition, an almost horizontal operation of the nozzle 49 (15 ° angle for example) promotes an increase in the flow rate. In this case, the hydraulic pressure on the surface of the piezoelectric element 46 is smaller and the acoustic waves can therefore propagate more easily compared to vertical operation of the nozzle. The almost horizontal operation of the nozzle requires the presence of a circulation pump 42. This pump 42 is optional for vertical or even inclined operation (for example at 450), provided however that the entire surface of the element piezoelectric 46 is covered with liquid, but the presence of the pump 42 is preferred because it makes the system less sensitive against the effect of flow variations. Furthermore, it allows the use of a pressurizing chamber 52 as explained below. The outlet orifice 50 of the nozzle 49 preferably has a circular shape. In one embodiment, its diameter is between 3 and 8 mm, and advantageously between 4 and 6 mm; the inner length of the nozzle is advantageously between 25 mm and 42 mm, knowing that this distance corresponds to the near field of the ultrasound generated by the piezoelectric ceramic 46. For example, a nozzle 49 of height can be used 38 mm, with an outlet with a diameter of 6 mm. The inlet section of the nozzle 49 (ie the sum of the surfaces of the inlet ports 51) must be greater than the section of the outlet port 50 (preferably at least three times greater) in order to avoid the Cavitation phenomenon in the nozzle 49 (as well as a lack of water). This condition is fulfilled, for example, with four inlet orifices 51 with a diameter of 5 mm for an outlet orifice 50 with a diameter of 6 mm. These inlet ports 51 make it possible to ensure the correct filling of the nozzle 49, reduce the pressure losses of the system and reduce the pressure on the piezoelectric element 46. It can also be seen that the presence of several orifices intake 51 distributed in the lower part of the nozzle decreases the risk of cavitation formation of bubbles during operation of the piezoelectric ceramic 46. The admission of the liquid from the tray 7 into the nozzle 49 is through to minus an inlet 51. Preferably, a plurality of inlet orifices 51 5 are arranged around the longitudinal axis of the nozzle 49 in an area close to the piezoelectric ceramic element 46. This filling nozzle 49 in liquid has two functions. On the one hand, knowing that in operation, some of the liquid contained in the nozzle 49 leaves in the form of fog, it is necessary to refill the nozzle 49 in liquid. On the other hand, a continuous filling of the nozzle 49 associated with the recirculation 10 of the liquid makes it possible to stabilize the operating conditions of the system 1 even in the presence of mechanical disturbances of the system 1, for example during a mechanical shock against the stall on which said system is mounted 1. On the rear face of said acoustic concentrator 49 is said piezoelectric element 46. The latter has an active surface directed towards the outlet 50 of the nozzle 49; this active surface may in particular be flat or concave. During operation (electrical excitation) of the piezoelectric element 46, this active surface is immersed in said liquid to transmit to it the acoustic waves that it generates. Said piezoelectric element 46 is preferably of cylindrical shape, typically a circular shaped plate. By way of example, said piezoelectric element 46 may have a diameter of 10 mm or 405 mm, or any diameter included in these two values. The ultrasound frequency is advantageously between 0.3 MHz and 3 MHz, preferably between 1.3 MHz and 2.3 MHz. It can be for example 1.68 MHz. The nozzle module 9 is traversed by a flow of the liquid to be sprayed; this flow is generated by a circulation pump 42 which is advantageously in the electronic box 8. The liquid to be sprayed is most often water. The liquid leaves said pump 42 and invades the lower part of the pressurizing chamber 52b of the nozzle module 9, then the nozzle 49 itself through the at least one inlet orifice in the nozzle 51. The liquid exiting by the outlet orifice 50 of the nozzle 49, preferably in the form of a small jet, projects into the collection tube which empties into the tray 7; The circulation pump 42 draws the liquid into the tank 7 and into the nozzle module 9. When filling the tank 7, the liquid first invades the lower part 52b of the pressurizing chamber, then it invades (through the inlet openings in the nozzle 51) the nozzle 49 (and covers the inner face of the piezoelectric element 46) as soon as the liquid level in the nozzle module 9 is sufficient, the liquid invades also the upper part of the pressurizing chamber 52a of the nozzle module 9. A small jet of liquid exits the outlet orifice 50 of the nozzle 49, and when the liquid level rises again it also invades the upper part 52a of the pressurizing chamber. The circulation pump 42 keeps the circulating liquid, preferably at a level just sufficient to ensure the perfect filling of the nozzle tank. When the piezoelectric element 46 is turned on, the jet of liquid 53 is lengthened (acoustic pump effect, it is to promote this phenomenon that the pump must preferably be centrifuged so as not to clamp the acoustic pump) and the nozzle 49 produces a mist of fine droplets The jet of liquid 53 generated at the outlet 50 of the nozzle 49 under the effect of the excitation by the piezoelectric element 46 empties into a collection tube 23 whose longitudinal axis is preferably inclined with respect to the vertical. Preferably the axis of the collection tube 23 is parallel to the axis of the acoustic concentrator 49, and even more preferably these two axes coincide.
    [0008] The collection tube 23 may be traversed by a flow of air generated by a ventilation means 24, which is preferably adjustable in flow and which is located upstream, downstream or inside the collection tube 23. Ledit air flow enters the nebulizing system 1 by an air inlet 21 and carries (by thrust or suction) the micro-droplets of liquid generated by the nozzle 49 around the jet of liquid 53. Thus forms a fog micro-droplet which leaves the collection tube 23 at its outlet 22 and enters its destination environment, for example the passenger compartment of a vehicle or the air space above a stall 8, being possibly led through a nebulizer 10 having at least one orifice 16 arranged advantageously so as to give the mist a direction and / or a height and / or a desired diffusion width.
    [0009] The jet of liquid 53 is projected against the inner wall of the collection tube 23, and the liquid thus collected flows into the tray 7. Thus the collection tube 23 also serves as a guide tube for the diffusion of fog. Advantageously, the guide tube 23 has optimized airflow characteristics in order to increase the droplet flow rate. In particular, the surface around the jet is homogeneous and smooth in order to collect the maximum of droplets; the path of the duct matches the shape of the jet so as not to disturb the hydraulics. This is illustrated in Figure 4b. This form promotes the flow of liquid, avoids any retention of water and vortex can disrupt the flow of the liquid, so as not to have areas of stagnation that pose a risk to the hygiene of the device. This form also reduces the noise related to the flow of the liquid and the flow of air: the device according to the invention is particularly silent. Several other embodiments may be adopted to improve the aeraulic characteristics of the system. The guide tube can be made in such a way as to cause a venturi effect, as illustrated in FIG. 7. It can be envisaged that the pressurization of air is done by the top of the tank, in particular by positioning the fan in such a way as to its blades rotate around a substantially vertical axis (Figure 11). In general, an axial or centrifugal fan can be used. In the embodiment of the invention illustrated in Figure 1, the collection tank 10 is represented by the fog outlet tube 23 and forms a one-piece element with the nozzle 49. This simplifies its construction; moreover, such a monobloc element is more robust. Alternatively, the body of the upper part 2 of the device 1 can be made in two parts 54a, 54b, preferably symmetrical, generated by a longitudinal section, as illustrated in FIG. 8. The two parts 54a, 54b can be assembled by any appropriate technique, such as screwing, gluing, clipping. It is advantageous to insert at least one ring 55 (preferably held in a groove 56 and / or between two flanges 57a, 57b) in the direction perpendicular to the axis to consolidate the body 54 and provide sealing and connection to the receiving compartment 13. Said piezoelectric element 46 can absorb a large electrical power, for example 30 to 60 W for a diameter of 20 mm. About 40% of this power is rendered as acoustic energy transmitted to the liquid, the rest is dissipated in thermal form. According to one embodiment of the invention, the piezoelectric element 46 is mounted on a support 33 which has in its rear part an orifice 34 which opens onto the rear part of the piezoelectric element 46; this orifice 34 contributes to the natural cooling of the piezoelectric element 46. This support 33 can be mounted directly on the rear portion 38 of the pressurizing chamber 52 in which the nozzle 49 is inserted. It is advantageous to use a seal 36 to ensure the seal between the support 33 and the rear portion 38 of the pressurizing chamber 52. The support can be fixed by means of fixing means 35 preferably reversible, to facilitate maintenance, such as than a clamping screw. The support 33 may be made of metal or plastic (for example polyamide, such as PA66, advantageously filled with glass fibers); it must be able to accommodate thermal stresses between the inside (contact with the piezoelectric element 46) and the outside (air).
    [0010] To avoid damaging the piezoelectric element 46 during its operation, it must be constantly cooled by the liquid to prevent its deterioration by overheating. The inventors have realized that when the piezoelectric element 46 runs dry even for a very short time, it may be damaged or even destroyed. To avoid this, the inventors have provided that the nebulizing system 1 may comprise appropriate means for preventing said piezoelectric element 46 from functioning (ie does not emit acoustic waves or only acoustic waves of very low power) when the piezoelectric element 46 is not immersed in the liquid to be sprayed. These means can take different forms, and generally comprise at least one means for detecting the lack of liquid and / or a means for detecting the heating of the piezoelectric element 46, and a means of feedback on the power supply. said liquid piezoelectric detecting means 46 may be a level sensor or a presence sensor which cuts or regulates the operation of the piezoelectric element 46. This sensor may be an optical sensor or a sensor. capacitive sensor or an inductive sensor, but among these three, an optical sensor is preferred which has a better reliability and in particular a very low hysteresis mm). This sensor may be located at various locations, in particular in the collection container, or inside the nozzle 49, or in the pressurizing chamber 52 of the nozzle 49. In one embodiment, a sensor is used. 7. Different types of pumps may be used for the circulation pump 42. The pump is advantageously adjustable flow; a pump adjustable between 0.1 and 2.8 liters / min is suitable for a nozzle 49 which has the dimensions indicated above. In one embodiment the circulation pump 42 is a propeller pump. Advantageously, this pump absorbs a direct current and the voltage is adjusted to vary the rotational speed and therefore the discharge rate at the outlet of the nozzle 49, which allows to change the length of the jet. The device 1 according to the invention, thanks to its acoustic wave focusing nozzle 49 generated by a piezoelectric element 46, is able to create and spread a mist formed of droplets with a typical average diameter between 0, 5 μm and 30 μm, and more particularly between 0.5 μm and 10 μm, preferably between 1 μm and 5 μm. This particle size depends in particular on the frequency of the acoustic waves produced by said piezoelectric element 46.
    [0011] FIG. 1 shows the three parts of the device 1 according to the invention, namely its upper part 2, its lower frame 4 and its electronic box 8 closed by a cover 3. Said electronic box 8 is advantageously arranged behind the lower frame 4. These three parts are substantially elongated. The upper part 2 comprises the fog outlet tube 23 which projects forward. The lower frame 4 comprises a tray module 5 comprising the tray 7 and the nozzle module 9. The tray 7 can be separated from said tray module 5 to be replaced if necessary. The fog outlet tube 23 may be curved horizontally in its vicinity near its outlet 22, and the axis of its outlet is preferably horizontal.
    [0012] Figure 2a shows the generally elongated shape of the device 1, with the tube 23 fog outlet which projects forward. Figure 2b shows that the device 1 has a small width, which promotes its handling for installation, uninstallation and maintenance operations. As shown in Figure 3, the electronic box 8 is covered with a cover 3. The electronic box 8 also comprises at least one electronic card 30 filled with electronic components 31; it can be fixed under the cover 3. The electronic box 8 advantageously comprises a radiator 6, which is advantageously in thermal contact with the electronic card 30; said radiator can be integrated in the cover 3. It can achieve said metal cover 3, which promotes the dissipation of heat; in some cases this may make the presence of a radiator superfluous. Said cover 3 can be connected to said housing 8 by hinges (see Figure 10); this facilitates access to components (pump, solenoid valves) during maintenance work. FIG. 4a makes it possible to explain in greater detail the operation of the device according to the invention. The electronic box 8 comprises in particular a circulation pump 42 which generates the jet of liquid 53 (water) in the nozzle 49, as described above. The system 1 can be supplied with water from the outside: the water enters through a water inlet 44 located on the back of the electronic box, through a solenoid valve 41 in the open position and enters the nozzle module 9. For cut the water solenoid valve 41 can be closed; this operation can be performed automatically by the electronic card.
    [0013] FIG. 4b makes it possible to illustrate the operation of the device I according to the invention: when the tank 7 is filled, the liquid first invades the lower part 52b of the pressurizing chamber, then it invades (through the orifices inlet nozzle 51) the nozzle 49 (and covers the inner face of the piezoelectric element 46) and finally the upper portion 52a of the pressurizing chamber; a small jet of liquid 53 exits the outlet orifice 50 of the nozzle 49. The circulation pump 42 keeps the liquid circulating. Figure 7 shows the side view of a longitudinal section of the device 1 according to another embodiment of the invention, wherein the air inlet is in parallel with the jet of liquid exiting the nozzle; thus the fog generated by the nozzle is sucked by the air flow (venturi effect). As shown in FIG. 5, the device 1 according to the invention is suitable for being integrated in a table (stall) 60, that is to say a surface on which objects are exposed, in particular for sale, and that it is a question of subjecting to the effect of the liquid mist generated by said device 1. This effect can in particular be a humidifying and / or refreshing effect. Said objects may be food products, in particular fresh vegetable products (for example fruit or vegetables), seafood products (for example fish, crustaceans or mussels), cheeses, meats, meat products (eg deli meats) or non-food products (eg potted plants or cut flowers). It is also possible to use the device 1 according to the invention in other situations of humidification and cooling, for example in living rooms, in interiors (vehicle for example). In an embodiment illustrated in FIGS. 5 and 6, the device 1 is placed under said table 60, in a receiving compartment 13 which opens onto one face of the table 60; said receiving compartment 13 may be closed by a hood (not shown in the figures). If the device is mounted under a table 60, the outlet tube of the mist 23 is advantageously extended by a fog duct 14; advantageously said fog outlet tube 23 can be inserted into said fog duct 14. Through said conduit 14 the fog is conveyed (under the influence of the air flow generated by the fan 24 which carries said fog) to at least a diffusion orifice. Said diffusion orifice may be mounted directly on the table surface 60 or at a low height, or may be mounted on a diffusing mast 15 which projects above the surface of the table 60, as shown in FIG. 5.
    [0014] In another embodiment said device 1 is fixed under the table 60 by means of slides 11 which can be in the receiving compartment 13 (Figure 6e), or which can replace the home compartment. According to a particularly advantageous aspect of the invention, the system 1 according to the invention can be easily removed, for example it can be removed from its home compartment 13 or it can be withdrawn along said slides. Three steps of this removal process are illustrated in FIGS. 6a, 6b and 6c (withdrawal in the direction of the arrow). The removal method is greatly facilitated by the fact that the fog outlet tube 23 simply fits into said fog duct 14; Figures 6d and 6e show two variants of this embodiment. It is not necessary that the connection between the fog outlet tube 23 and the conduit 14 is fixed; the seal is provided by the ring 55 located in the groove 56 of the outlet tube 23. The withdrawal can take place without tools. The device 1, possibly after having disconnected its power supply cable and / or its liquid supply pipe, can then be placed on a table or a workbench nearby, or can be taken away for a maintenance operation. The device according to the invention, by its improved construction, which is in particular modular, and which facilitates its access and disassembly, can be simply exchanged against another device 1 new or in good condition. This way of proceeding has the enormous advantage of interrupting the operation of the fogging system only for a very short time (of the order of a minute or a few minutes), and to avoid carrying out maintenance of the fogging system. device on its place of use, which is usually a place welcoming the public. The system 1 according to the invention can be powered by a mains power cable. Being designed to consume very little electrical power (and operate at very low voltage TBT), it can also be powered by a power cable that leads to a low voltage transformer. It can also be powered by a battery and a water tank (solid or flexible). In this case, the battery and reservoir assembly is fixed on the table or on a moving carriage. The user can move the truck to a charging zone, it connects the water supply and the electrical supply. This device is optimized in terms of use, the filling of the tank and the charge of the battery are automated. The fact of being able to avoid a direct supply to the mains makes it possible to install the device according to the invention in humid zones, where perfect insulation of the individuals close to the device (customers, shop sellers, maintenance personnel) can not be guaranteed. in all circumstances (eg seafood products). This represents another advantage of the system 1 according to the invention. The reduction in energy consumption and especially electrical is obtained through the optimization of the flow rate of the circulation pump 42, the diameter of the outlet 50 of the nozzle 49, the inclination of the nozzle 49, the shape and inclination the fog outlet tube 23, the geometry of the ventilation ducts and the cooling efficiency of the piezoelectric element 46 thanks to its support 33 provided with an orifice 34. For example, for an angle of 15 ° compared to the horizontal, a nozzle diameter of 6 mm, and a flow rate of the pump of 11 / min, the nebulization flow rate is about 1.9 liters per hour which represents a yield of 32 Watts hour per hour. liter. With conventional systems, the yield is about 75 Watts hour per liter. With the system according to the invention, the gain is about 58% of electrical energy for the same flow of nebulization. According to another aspect of the invention, a number of the structural elements and the functional elements of the device can be made of plastic (in particular polyamide, such as PA 66), advantageously reinforced by glass fibers or other fibers . This allows to lighten the device, to facilitate its handling, and it can also facilitate the mass production of said elements by plastics processes. May be made of suitable plastics including: the lower frame 4, the tray module 5, the upper part 2 with the fog outlet tube 23 (with the exception of some components of the fan motor 24). The cover 3 of the electronic box may also be made of plastic, but for reasons of electromagnetic shielding and heat dissipation, the use of a metal sheet may have advantages.
    [0015] According to another aspect of the invention, the lower frame 4 may comprise one or more stabilization plates 48, visible in FIG. 11, which avoid, in the event of a mechanical disturbance of the system 1, a too large fluctuation of the level of liquid in the tray 7 and in the nozzle 49, said level fluctuation may affect the permanent coating of the emitting surface of the piezoelectric element 46 with liquid. Said stabilizing plates 48 may be arranged horizontally and / or vertically. They may have orifices. They can be arranged at an angle. Figure 11 illustrates another embodiment of the invention which is related to the relationships between different volumes. V1 denotes the volume of liquid in the tank 7, V2 the volume of liquid in the circulation pump and the pipes connecting it to the tank 7 (not shown in the figure), by V3 the volume of liquid in the chamber of pressurization 52 in the lower part of the nozzle 49 (ie less than the height which defines the lower plane of the volume V5, see below) and V4 the volume of liquid in the nozzle 49. The volume V3 can be very low even zero. V5 denotes the volume of liquid in the upper portion of the pressurizing chamber 52 located at a liquid level greater than the highest of the following three points: the orifice 51 for the admission of water to the nozzle located the highest, or the upper edge of the outlet orifice 50 of the nozzle 49, the highest point of the piezoelectric ceramic 46. Thus whatever the inclination a of the nozzle 49, any point of the piezoelectric ceramic 1 is at a level below the volume V5.
    [0016] In normal operation of the system 1, the volumes V1, V2, V3, V4 and V5 are filled with liquid, the circulation pump 42 and the piezoelectric element 46 operate and generate a jet of water 53 of approximately constant length, which illustrates the stationary state of the system. According to the invention, the pressurizing chamber 52 is dimensioned so that it has a sufficient buffer volume (safety volume) V5 relative to the volume V4 of the nozzle 49, so that in the case where the circulation pump 42 does not pump any more liquid (for example when the liquid level in the tank 7 is insufficient, or when the circulation pump 42 is defused), the volume V5 ensures for a certain lapse of time ts supply of water volume V4 nozzle 49, so that the piezoelectric element 46 is further embedded during this time ts. This lapse of time ts may be used, in whole or in part, to cut off the power supply of the piezoelectric element 46, and / or to wait if the liquid level recovers itself (especially in the event of a disturbance). mechanical or when the circulation pump 42 has simply swallowed an air bubble). The time ts must be long enough to allow the power supply of the piezoelectric element 46 to be completely cut off and the operation to be stopped; the Applicant has in fact observed that the stopping of the operation of the piezoelectric element 46 is not instantaneous when one cuts off its power supply: the piezoelectric element 46 continues to vibrate while the circuits of its power supply are empty.
    [0017] In a general manner, it is preferred in the context of the present invention that the ratio of the V5N4 volumes is at least 2 and preferably at least 6, and even more preferably at least 12. more precisely, the desirable reaction time of the system for disconnecting the power supply of the piezoelectric element 46 in case of lack of water is taken into consideration. It is not necessarily desirable to turn off the power at the slightest level drop in the pressurizing chamber 52, which may lead to a generation of too intermittent fog. But we must be sure that when this decline is prolonged or worsened beyond a certain period, the power supply of the piezoelectric element 46 is cut off or at least greatly reduced. Thus, the inventors consider that in a mechanically unstable environment (vehicle, stand surrounded by a crowd of people) the nebulizing system 1 according to the invention must allow operation of the piezoelectric element 46 for a duration ts between 1 and 10 seconds without liquid supply by the circulation pump 42, and preferably between 2 and 5 seconds.
    [0018] In this context, an important parameter is the flow of liquid generated by the piezoelectric element 46 at the outlet of the orifice 50 of the nozzle 49 in the absence of pumping by the circulation pump 42; this flow (which is often manifested by the presence of a small jet of water called "acoustic fountain") depends (for a given angle of positioning of the nozzle 49 and a given liquid) essentially of the power of the piezoelectric element 46. Even more precisely, the flow of the acoustic fountain can be expressed by Qpiezo = K x Pmax where Pmax is the maximum electrical power consumed by the piezoelectric element and Qpiez is the flow of the acoustic fountain at this power Qpiezo, and K is a factor of o -p, ezo proportionality. It is desired to have a safety operating time of ts seconds, that is to say that when the circulation pump 10 stops working (in particular by defusing), the system has a delay of approximately ts seconds to switch off the supplying the piezoelectric element 46. Advantageously, the delay ts is between 1 and 10 seconds, and a value between 2 and 5 seconds is preferred. According to the invention, this objective can be achieved by providing a sufficient safety buffer volume V5, which corresponds to the volume of the pressurizing chamber 52 being at a liquid level higher than the upper edge of the outlet orifice 50 of the nozzle 49. This volume must be greater than the volume V4 of the nozzle 49. It is therefore desired that V5 k V4 + Qpien x ts.
    [0019] This relation can be expressed by V5 V4 + K x Pmax x ts. In a typical example, a nozzle 49 with a V4 volume of 0.0054 liters is used, and Qpiezo is 50 W for a supply voltage of 22 V with an acoustic efficiency of about 40%; the angle is between 0 and 30 °. Under these conditions Pmax is about 1.5 liters / min, and therefore K = 0.0005 l / Ws. If a target value ts = 5 seconds, V5 must be at least 0.13 liters. The ratio V5N4 is therefore 24. As indicated above, the value ts may be less than 5 seconds, which tends to reduce the V5N4 ratio.
    权利要求:
    Claims (16)
    [0001]
    REVENDICATIONS1. Nebulizing device (40) of elongated overall shape, acoustic ultrasonic concentrator type, capable of generating a mist of droplets of a liquid from a liquid, comprising - an elongated lower frame (4) , comprising a tray module (5) and a nozzle module (9), - an elongated electronic housing (8) located in the projection (and preferably in the axis) of said lower frame (4) and capable of to form a body with the latter or to be detachable from the latter, said electronic box (8) comprising a cover (3), - an upper part (2) comprising a fog outlet tube (23) and a ventilation means (24) adapted to generate a flow of air through said fog outlet tube (23); wherein: said nozzle module comprises an ultrasound acoustic concentrator nozzle (49) provided with at least one liquid inlet port (51) and at least one liquid outlet port (50), and at the opposite side of said output port (50) a piezoelectric element (46) adapted to emit acoustic waves in said liquid, and the cross section of said nozzle (49) having a progressive narrowing towards said first output port (50), so that in said nozzle (49) the acoustic waves are focused to create a mist of droplets of said liquid; a pump (42) called "circulation pump" is connected on the one hand to the tank (7) and on the other hand to said nozzle (49) by the at least one inlet orifice (51) arranged in said nozzle ( 49), said circulation pump (42) being adapted to generate in said nozzle (49) a liquid pressure sufficient to maintain a liquid jet (53) exiting through said outlet orifice (50) of the nozzle (49); the upper part is arranged above the lower frame (4), so that the rear part of said fog outlet tube (23) is at least partially inside the tray module, and the tube ( 23) fog outlet projects towards the front of the device, said electronic box (8) is located behind said lower frame (4), knowing that the direction "behind" being the opposite of the sense "in front" which, him , is defined with respect to the exit direction (22) of the fog outlet tube (23).
    [0002]
    2. Device according to claim 1, characterized in that it further comprises a pressurizing chamber (52) which is traversed by the liquid exiting the circulation pump (42) before entering said nozzle (49). the volume (V5) of the upper portion of the pressurizing chamber (52) being at a liquid level greater than the highest of the following three points: the water inlet (51) of the highest nozzle, the upper edge of the outlet orifice (50) of the nozzle (49), the highest point of the emitting surface of the piezoelectric element (46), is at least twice (Preferably at least six times and even more preferably at least twelve times) larger than the volume (V4) of the nozzle (49).
    [0003]
    3. Device (1) according to claim 1 or 2, characterized in that said circulation pump is disposed in said electronic box (8).
    [0004]
    4. Device (1) according to any one of claims 1 to 3, characterized in that the longitudinal axis of said nozzle (49) is substantially parallel to the axis of said tube (23) output fog.
    [0005]
    5. Device according to any one of the preceding claims, characterized in that the sum of the surfaces of the intake ports (51) is greater, and preferably at least three times greater, than the section of the outlet orifice ( 50).
    [0006]
    6. Device according to any one of the preceding claims, characterized in that the longitudinal axis of said nozzle (49) forms an angle of inclination with respect to the horizontal which is between 0 ° and 45 °, of preferably between 0 ° and 30 ° and even more preferably between 5 ° and 20 °.
    [0007]
    7. Device according to any one of the preceding claims, characterized in that it comprises at least one stabilization plate (48) of the liquid level, arranged horizontally, vertically or at an angle.
    [0008]
    8. Device according to any one of the preceding claims, characterized in that it comprises ventilation means for creating a flow of air which carries said mist of droplets through said tube (23) out of fog to the outside said device.
    [0009]
    9. Device according to any one of the preceding claims, characterized in that it comprises at least one means (43) for detecting a lack of liquid associated with a feedback loop to cut or reduce the intensity of acoustic waves. emitted by the piezoelectric element (46) in case of lack of liquid.
    [0010]
    10. Device according to any one of the preceding claims, characterized in that said fog outlet tube (23) is curved horizontally in its part close to its outlet (22), and the axis of its outlet is preferably horizontal.
    [0011]
    11. Device according to any one of the preceding claims, characterized in that it is designed to be supplied with electrical energy by a battery and / or water by a tank.
    [0012]
    12. A method of starting a device according to any one of claims 1 to 11, wherein (a) is made enter liquid in the tray (7); (b) when the level of said liquid rises in said tank (7) to a preset point which is detected by a liquid level detector (39) in the tank (7), the circulation pump is operated ( 42); (c) the circulation pump (42) provides a liquid pressure sufficient for the liquid to be able to invade the nozzle (49), possibly after having invaded the pressurizing chamber (52), and to form a jet of liquid ( 53) that leaves the exit port (50), knowing that during at least part of this time, additional liquid is introduced into the tank; (d) when the level of said liquid in said bin (7) has reached a preset point which is detected by a level sensor, activating the power supply of the piezoelectric element (46) to create liquid droplets .
    [0013]
    The method of claim 12, wherein in step (d) said preset point and / or said level detector are the same as in step (b).
    [0014]
    14. Use of a device (1) according to any one of claims 1 to 11 under a stall or table (60), in particular for the presentation of articles for sale, said stall or said table (60) being equipped with at least one nebulizer (10) which diffuses through at least one nebulizing orifice (16) of the mist generated by said device (1).
    [0015]
    15. A table or stall (60) for the presentation of articles for sale, comprising a display surface and at least one nebulizer (10) which diffuses through at least one nebulizing orifice (16) of the mist generated by a device (1) for nebulization, said table or said stall (60) being characterized in that it comprises: a device (1) according to one of claims 1 to 11, arranged below its presentation surface, a tube, one end of which is connected to said less nebulizer (10) and the other end (12) is arranged to be connectable to the outlet end (22) of the fog outlet tube (23) of said device (1). ) when said device (1) is in operative position under said table or said stall (60), a fixing device (11,13) for introducing said device (1) into its operative position under said stall or table (60), and to remove it, by a lateral movement in the axis of said device (1).
    [0016]
    16. A method of removing a device (1) according to any one of claims 1 to 11 mounted in operative position under a stall or table (60) in particular for the presentation of articles for sale, said method comprising the step of a linear movement of the device to the outside of said stall or said table.
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    同族专利:
    公开号 | 公开日
    US20170203323A1|2017-07-20|
    EP3182862B1|2018-09-19|
    CA2955409A1|2016-01-21|
    WO2016009127A1|2016-01-21|
    US10562060B2|2020-02-18|
    EP3182862A1|2017-06-28|
    FR3023735B1|2016-07-29|
    ES2702715T3|2019-03-05|
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    FR3070907B1|2017-09-11|2020-05-15|Valeo Systemes Thermiques|NEBULIZATION SYSTEM FOR A MOTOR VEHICLE|
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    法律状态:
    2015-07-29| PLFP| Fee payment|Year of fee payment: 2 |
    2016-01-22| PLSC| Search report ready|Effective date: 20160122 |
    2016-10-24| PLFP| Fee payment|Year of fee payment: 3 |
    2017-07-12| PLFP| Fee payment|Year of fee payment: 4 |
    2018-07-30| PLFP| Fee payment|Year of fee payment: 5 |
    2019-07-31| PLFP| Fee payment|Year of fee payment: 6 |
    2020-07-27| PLFP| Fee payment|Year of fee payment: 7 |
    2021-07-26| PLFP| Fee payment|Year of fee payment: 8 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1456863A|FR3023735B1|2014-07-17|2014-07-17|COMPACT NEBULIZER FOR AIR REFRIGERATION|FR1456863A| FR3023735B1|2014-07-17|2014-07-17|COMPACT NEBULIZER FOR AIR REFRIGERATION|
    CA2955409A| CA2955409A1|2014-07-17|2015-07-07|Compact nebulizer for freshening the air|
    US15/326,377| US10562060B2|2014-07-17|2015-07-07|Compact nebulizer for freshening the air|
    EP15756678.7A| EP3182862B1|2014-07-17|2015-07-07|Compact nebulizer for cooling the air|
    PCT/FR2015/051877| WO2016009127A1|2014-07-17|2015-07-07|Compact nebulizer for freshening the air|
    ES15756678T| ES2702715T3|2014-07-17|2015-07-07|Compact nebulizer to cool the air|
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