FR2986411A1 - HAND-HELD DEVICE WITH PROXIMITY DETECTOR - Google Patents

Abstract

The present invention relates to a hand dryer device (1) comprising: (i) means (16) for the production of an air flow, (ii) at least one nozzle (15) which is connected to said means of production airflow (16), for projecting an air jet capable of drying the hands of a user in a drying zone (4), and (iii) means (17) for controlling said means for producing the airflow (16) comprising at least one capacitive proximity sensor (19) provided with a detection zone (Z), said control means (17) being intended to put said production means into operation air flow (16) when the user's hand (s) is present in said detection zone (Z).

Description

The present invention relates to hand dryer devices that operate with electrical energy and are intended to be installed near a water point, usually wall mounting, to ensure the drying of a user's hands.

Most electric hand dryer devices use a flow of air that is sprayed onto wet hands, after washing, to remove residual water. For this purpose, these hand-dryer devices comprise means for producing an air flow, and at least one nozzle which is connected to said means for producing the air flow for the projection, in a drying zone, of a spray able to dry the hands of the user. Most electric hand-held devices blow hot air into the drying area to remove water by evaporation. Other types of hand dryers generate air blades adapted to remove the water present on the user's hands mainly by mechanical phenomenon. Especially for reasons of hygiene and convenience, these hand-dryer devices often incorporate control means equipped with a proximity sensor provided with a detection zone.

These control means are intended to put in operation the means of production of the air flow during the presence of the user's hands in the detection zone, without contact with any switch. The proximity sensors currently used in the hand dryer devices consist of photoelectric sensors (in particular infrared proximity sensors), which consist of a light beam emitter / receiver pair. This type of photoelectric sensor must be positioned behind a transparent outer wall (advantageously a window closed by a transparent part), so as to let the detection light beams, in transmission and in reception. However, this positioning of the photoelectric sensor, behind a transparent part, generates implantation and sealing constraints within the hand dryer device.

In addition, this transparent part must be frequently cleaned to prevent its opacification (especially because of dirt and / or deterioration); in addition, its joints with the other components of the outer casing of the hand dryer device are likely to cause problems of cleaning, hygiene, and sealing. This transparent part still entails additional costs, particularly in terms of manufacturing and logistics. In this context, the Applicant has developed a new structure of hand dryer device that no longer requires the presence of such a transparent part at the detection zone. For this purpose, the hand dryer device according to the invention comprises: (i) means for producing an air flow, (ii) at least one nozzle that is connected to said means for producing the air flow, for projecting an air jet able to dry the hands of a user in a drying zone, and (iii) means for controlling said airflow generating means comprising at least one proximity sensor provided with a detection zone, said control means being intended to put into operation said means for producing the air flow when the user's hands are present in said detection zone. And according to the invention, the proximity detector consists of a capacitive proximity sensor. The use of such a type of detector allows an original design of the hand dryer device, simpler and more convenient than the currently known structures. This hand dryer device advantageously comprises at least one outer part constituting at least a portion of the envelope of said hand dryer device, which outer part is made of an opaque material; the capacitive proximity detector is then advantageously positioned behind said opaque outer part and has a detection zone which extends through and facing this outer part. In addition, and in order to avoid inadvertent tripping, the hand dryer device according to the invention advantageously comprises means for limiting its detection zone, which means advantageously comprise at least one metal piece forming a barrier to the detection zone of the detector capacitive, disposed at a front wall of the hand dryer device, facing which is intended to come to position an individual. On the other hand, the drying zone advantageously comprises a front opening for the passage of the hands of the user who is equipped with at least one slot-shaped nozzle for the projection of at least one air knife adapted to remove the water present on said hands; and the detection area of the capacitive proximity sensor then advantageously extends just behind said slot-shaped nozzle.

In this case, the front opening advantageously has an elongate shape, adapted for positioning the two hands of the user side by side and in the same horizontal plane; the slot-shaped nozzle or nozzles advantageously extend the entire length, or approximately the entire length, of said front opening, and the detection zone of the capacitive proximity detector advantageously extends over at least half of the length of this front opening (preferably on at least 2/3 of this length, and preferably still all or approximately the entire length of this opening). Again in this case, the drying zone preferably has a bottom wall formed at the rear of said front opening to form a water collector; and the capacitive proximity sensor is then positioned under this bottom wall, and has a detection zone that extends upwardly and through said bottom wall. Still in this case, the front opening of the drying zone is advantageously delimited by a tubular inner surface having two longitudinal portions connected by two lateral portions; and the slot-shaped nozzle or nozzles are then formed along the length of at least one of said longitudinal portions. Moreover, the capacitive detector is preferably implanted on at least one printed circuit. In this case, the capacitive detector advantageously comprises a sensor consisting of a conductive lining covering at least a portion of one of the faces of the printed circuit. In addition, it still advantageously comprises a controller connected with said sensor.

Then, the controller and the sensor are advantageously carried by the same printed circuit (preferably a double-sided printed circuit), the sensor being implanted on a first face and the controller being implanted on the second face.

More preferably, the printed circuit carries the sensor, as well as the electronic / electrical compounds for the operation of said hand dryer device. On the other hand, the detection zone of the capacitive proximity detector is advantageously between 10 and 20 cm.

The invention will be further illustrated, without being limited in any way, by the following description of a particular hand dryer device, with reference to the accompanying drawings, in which: FIG. 1 is a general and perspective view of this dryer device; hands; FIG. 2 is a front view of the hand dryer device of FIG. 1, with diagrammatic representation of the printed circuit on which the capacitive proximity detector is implanted; - Figure 3 shows schematically the hand dryer device of Figures 1 and 2, according to a vertical and transverse sectional plane for illustrating the positioning of the printed circuit carrying the capacitive proximity sensor; - Figure 4 very schematically shows the aforementioned printed circuit, carrying the capacitive proximity sensor, seen from the side of its lower face; FIG. 5 represents, in front view, a possible embodiment of the front structure fitted to the hand dryer device according to FIGS. 1 to 3, forming in particular the duct for the flow of air and the opening equipped with the air knife projection nozzle; Figure 6 is a cross-sectional view of the front structure shown in Figure 5; FIG. 7 is a partial and enlarged view of FIG. 6, detailing the structure of the opening for the passage of hands; FIG. 8 illustrates, in perspective and in an exploded manner, the two constituent parts of the front structure of the hand dryer device represented in FIGS. 5 to 7. The hand dryer device 1, represented in FIGS. 1 to 3, operates to electrical energy. He uses here on a technology of blade type (s) of air to mechanically remove the water present on the wet / wet hands of a user (removal of water by pushing and sliding on the skin, possibly associated with a evaporation phenomenon).

This hand dryer device 1 comprises a body 2 of generally parallelepipedal shape, having - a rear face 2a, intended to bear and to be fixed on a vertical support (for example a wall), a front face 2b, facing of which is placed the user, - two side faces 2c, - a lower face 2d, intended to be oriented towards the ground, and - an upper face 2e, intended to be oriented upwards. In its upper part, the body 2 comprises a drying zone 4 at which the user places his hands to remove the water under the action of the above air slats. According to the illustrated embodiment, this drying zone 4 comprises a housing 5 formed at the upper part of the body 2. The housing 5 is delimited by the upper surface 2e of the body 2, and by the upper parts of its front faces. 2b, rear 2a and lateral 2c. This housing 5 is provided with: - a front opening 6 for the passage of the user's hands and in which is applied the jet of drying air, - a bottom 7 forming a water collector (FIG. 3), formed just behind this front opening 6, - a rear wall 5a, formed by the upper part of the rear face 2a, and - an upper opening 8 facing the collector 7, extending through the upper face 2e and part of the height of the side walls 2c. The front opening 6 is formed in the upper part of the front face 2b of the body 2, on the side of its upper face 2e. This front opening 6 is delimited by a tubular inner surface 10 of generally oblong shape, with: two longitudinal portions 11, one upper 11a and the other lower 11b, which are rectilinear or approximately rectilinear, and - two portions lateral 12 which are concave, each in the general shape of a semicircle. The upper portion 11a of the tubular inner surface 10 extends here in a horizontal plane, or at least approximately horizontal.

The lower portion 11b of the tubular inner surface 10 extends in turn in a plane inclined downwardly, from the front face 2b to the rear face 2a of the body 2 (in particular to promote the flow of the water removed to the collector 7). The tubular inner surface 10 is further delimited by: - an oblong front edge 13 extending at the front face 2b of the body 2, slightly inclined towards the rear from the bottom to the top, and - a rear edge 14 also oblong, located on the side of the housing 5 of the drying zone 4. The front opening 6 is dimensioned to allow the introduction of the user's hands in a juxtaposed manner and in the same horizontal plane, one relative to the other. For this and simply by way of example, the front edge 13 of the tubular inner surface 10 has the following dimensions: a height of between 80 and 90 mm, and a width of between 250 and 260 mm.

This front opening 6 is equipped with a nozzle 15 which is arranged and structured for the projection of an air gap L in the space defined by its tubular inner surface 10 (FIG. 6), in order to progressively eliminate the water present on the user's hands. As further developed in connection with the particular embodiment according to FIGS. 5 to 8, this nozzle 15 advantageously consists of a continuous or discontinuous slot, which is formed on all or part of the length of the tubular inner surface 10, on the side of its front edge 13. Preferably, this nozzle 15 is formed, at least, over the entire length, or at least approximately the entire length, of each of the two longitudinal portions 11 of the front opening 6. The organ water collector 7 form in turn a kind of bowl. It comprises a lower orifice 7a which allows the evacuation of liquids removed from the hands by the air or blades L.

This collecting member 7 consists of a downward wall in the direction of the front face 2b towards the rear face 2a, and which extends in the extension of the lower portion 11b of the tubular inner surface 10 of the front opening 6.

The body 2 includes means 16 for producing the air flow intended to feed the drying air slats or projected by the nozzle 15. These means 16, shown very schematically in Figure 3, advantageously consist of an electric fan. The body 2 also incorporates control means 17 providing control of the air flow production means 16, for the operation of the latter during the presence of the user's hands in the drying zone 4. These control means 17 here consist of a single electronic card (or a single electronic circuit), which comprises a printed circuit 18 carrying the electronic and / or electrical components useful for the operation of the hand dryer device 1. Such an electronic card 17 has the interest of facilitating the assembly operations, but also of being able to be replaced easily and quickly in the after-sales service operations.

According to the invention, the printed circuit 18 carries in particular a capacitive proximity detector 19 which generates a detection zone Z for the operation of the means for producing the air flow 16 during the presence of the hands of the in this detection zone Z. Such a capacitive proximity detector 19 aims to detect a variation of the capacitance of the system, linked to the presence of an object in the detection zone Z. The detection zone Z is illustrated by FIG. Very schematically in Figures 2 and 3. This representation of the Z detection zone is proposed here only to facilitate understanding; it must not be considered as limiting. The detection zone Z is intended to extend around the capacitive proximity detector 19. In the present case, as shown in FIG. 3, this detection zone Z extends at least across, and facing, the manifold 7 and the lower portion 11b of the front opening 6; it further extends just behind the nozzle 15 in the form of a slot, in the housing 5. This manifold 7 and this lower portion 11b of the front opening 6 constitute a part of the peripheral envelope of the hand dryer device 1.

These two outer parts 7 and 11b are here made of an opaque material and allow a detection of the capacitance variation through these parts. For example, these two outer parts 7, 11b are made of thermoplastic polymer material, in particular of the acrylonitrile butadiene styrene (ABS) type. As illustrated in FIG. 2, the detection zone Z of the capacitive proximity detector 19 extends over at least half of (preferably at least 2/3, more preferably all or approximately all) the distance separating the two longitudinal portions 11.

Still according to FIG. 2, the detection zone Z of the capacitive proximity detector 19 extends over at least half of (preferably at least 2/3, more preferably all or approximately all) the length of the longitudinal portions 11 (on which is formed the nozzle 15) separating the lateral portions 12.

For this, the capacitive proximity detector 19 is here advantageously positioned just below the collector 7 and the lower portion 11b of the front opening 6 (Figure 2 and 3). The structure of the electronic card 17 is specified below in connection with FIGS. 2 to 4.

First, the printed circuit 18 has a lower face 18a (shown in particular in Figure 4) and an upper face 18b. This printed circuit 18 here consists of a double-sided printed circuit. Its upper face 18b is oriented here towards the collector assembly 7 / lower longitudinal portion 11b. The capacitive proximity detector 19 is structured and configured so that its detection zone Z is between 10 and 20 cm in a direction perpendicular to the upper face 18b of the printed circuit 18.

This capacitive proximity detector 19 comprises a sensor 19a constituted by a conductive lining covering a part of the upper face 18b of the printed circuit 18. This sensor 19a is advantageously composed of the upper copper layer of the printed circuit 18. Other substrates or deposits, such as silver ink, can be used to form the sensor 19a. For a sufficient sensitivity, the surface of the sensor 19a is here of generally rectangular shape; it advantageously has an area of between 200 and 350 cm 2, preferably between 250 and 270 cm 2 (that is still sides of the order of 20 to 25 cm by 10 to 15 cm). A controller 19b (shown in particular in FIG. 4) is attached to the lower face 18a of this printed circuit 18 and connected with the sensor 19a.

The controller 19b advantageously consists of a microcontroller, preferably a "PIC" microcontroller, integrating in particular a program memory, a data memory, input and output ports, and a clock. This controller 19b advantageously integrates a program (or a software application) based on an algorithm adapted for detecting the variation of the capacitance related to the presence of an object in the detection zone Z. For example and without being in any way limiting, this program uses a technique chosen from "field effect", "charge transfer", "relaxation oscillator" or "successive approximation" measurements. The controller 19b further comprises means for operating the means for producing the air flow 16, during the detection of an object in the detection zone Z. In addition, the printed circuit 18 carries here all electronic / electrical components useful for the operation of the hand dryer 1, for example the mains power supply 17a; these electronic / electrical components (not shown) are advantageously implanted on the lower face 18a of the printed circuit 18. To define the front limit of the detection zone Z, the front wall 2b of the hand dryer device 1, opposite which is intended to position the user, advantageously consists of a metal part (made for example of aluminum). This metal front wall 2b thus forms a barrier to a detection of the capacitance variation (and thus forms a front limit to the detection zone Z) in order to avoid an inadvertent detection, by the capacitive detection means 19, of an object or a person simply positioned in front of the front wall 2b, without the desire to use the hand dryer device, or before introducing his hands into the drying zone 4. According to a particular embodiment, the front opening 6, with its nozzle 15, is constituted by a front structure 20 which is attached to the body 2. The front structure 20, illustrated in Figures 3 and 5 to 8, comprises - an upper part 20a, provided with said front opening 6 associated with the nozzle 15 (visible in particular in Figure 7), and - a lower portion 20b, forming a base for attachment to the remainder of the body 2. This front structure 20 is attached to a rear receiving structure 20c, forming notably the collector 7 and the rear face 2a of the hand dryer 1 (FIG. 3). For the particular positioning of the electronic card 17, the lower part 20b of this front structure 20 and the receiving structure 20c each comprise a longitudinal groove 20d, which are open towards each other for the reception of two borders longitudinal opposite of the printed circuit 18 (Figure 3). Access and replacement of the electronic card 17 can thus be achieved relatively easily, after a simple disassembly of the front structure 20. In Figures 5 to 8, it is noted that the upper portion 20a is provided with the front opening 6 which is delimited by the tubular inner surface 10 in which is formed, on the side of its front edge 13, the nozzle 15 in the form of continuous annular slot. As illustrated in FIG. 7, the tubular inner surface 10 is here formed by: the upper end of the base 20b, forming the lower longitudinal portion 11b along the length of which is formed a lower longitudinal section 15b of the nozzle 15, 2 9 8 6 4 1 1 11 - two lateral arms 20a1 constituting the upper part 20a, extending said base 20b and each forming one of the lateral portions 12 along the length of which is formed a lateral section 15c of the nozzle 15 (only one of these lateral sections 15c is visible in FIG. 7), and 5 - an upper longitudinal arm 20a2 constituting the upper part 20a, connecting the two lateral arms 20a1 and forming the upper longitudinal portion 11a on the length of which is provided an upper longitudinal portion 15a of the nozzle 15. The two lateral arms 20a1 and the upper longitudinal arm 20a2 10 together form a generally shaped element d handle, extending in the extension of the base 20b. For an effective action, the width of the slot 15 is advantageously between 0.3 and 0.7 mm, preferably 0.5 mm. In FIG. 7, it can be seen that the sections 15a, 15b and 15c of the nozzle 15 are arranged so that the air gap L is oriented rearward with respect to the opening 6. The nozzle portions 15a, 15b and 15c in question each define a plane inclined with respect to a vertical plane V and directed rearwardly. For example, according to FIG. 7, the upper longitudinal portion 15a defines a plane 15a 'forming here a counter-clockwise angle α with respect to a vertical plane V, the value of which is advantageously between 20 ° and 30 ° (preferably between 20 ° and 25 °). The lower longitudinal portion 15b extends meanwhile in a plane 15b '25 forming here a clockwise angle b with respect to a vertical plane V, the value of which is advantageously between 30 ° and 40 ° (preferably between 35 ° and 40 °). The angles a and b extend in opposite directions relative to each other. The front structure 20 further includes a duct 21 for the flow of air flow from the fan means 16 to the nozzle 15. This duct 21 comprises - an upstream chamber 21a, formed in the lower part 20b of the front structure 20 and connected to the fan means 16, and - a downstream tubular portion 21b, formed in the upper part 20a of the front structure 20, along the front opening 6 on its circumference and connected to the nozzle 15. The downstream tubular portion 21b of the conduit 21 defines a generally annular shape in combination with the upstream chamber 21a, to surround the front opening 6 over its entire circumference. The upstream chamber 21a is defined here, in the upper part, by the lower longitudinal portion 11b of the tubular inner surface 10. This upstream chamber 21a thus supplies air to the lower longitudinal section 15b of the nozzle 15.

The downstream tubular portion 21b of the duct 21, here U-shaped, comprises two lateral sections 21b1 (not visible, but designated in Figure 5 for guidance) integrated in the tubular side arms 20a1. The two lateral sections 21b1 are connected, on the upstream side, to the upstream chamber 21a and, on the downstream side, by a longitudinal downstream section 21b2 of the downstream tubular portion 21b which is integrated in the longitudinal arm 20a2 also of tubular shape. The lateral sections 21b1 and the downstream longitudinal section 21b2 of the downstream tubular part 21b thus supply air, respectively, the lateral sections 15c and the upper longitudinal section 15a of the nozzle 15.

The front edge 13 of the front opening 6 and the nozzle slot 15 extend in a general plane P which is inclined rearwardly, from the bottom upwards, with respect to the vertical plane V (FIG. 7). . The angle c defined by this general plane P, with respect to the vertical, consists here of a time angle, the value of which is advantageously between 15 ° and 25 ° (preferably of the order of 20 °). As illustrated in FIGS. 6 to 8, the front structure 20 is constituted here by two parts, one before and 25 the other rear 26, secured in an airtight manner to delimit the conduit 21 for the path air.

According to FIG. 8, the two structural parts 25 and 26 each comprise two parts complementary to each other, namely: an annular upper part 25a and 26a, to form together the upper part 20a of the front structure 20 (in particular the tubular inner surface 10 associated with the downstream tubular part 21b of the duct 21), and - a lower part 25b and 26b, to form together the base 20b of the front structure 20 (in particular the lower chamber 21a of the duct 21 ). At its lower part 26b, the rear part 26 is provided with an orifice 27 for the passage of air generated by the fan means 16. In addition, the annular upper parts 25a and 26a of these two parts 25 and 26 comprise complementary annular borders 25a 'and 26a' which are intended to come into view and close to each other, to delimit between them the slot 15 forming a nozzle (Figure 7).

The distance between these two complementary annular edges 25a 'and 26a' is advantageously between 0.3 and 0.7 mm, preferably of the order of 0.5 mm. In practice, the user introduces his wet hands through the front opening 6, next to each other and approximately in the same plane. When the hands of the user are introduced through the front opening 6 and reach the housing 5, these hands enter the detection zone Z of the capacitive proximity detector 19. The electronic card 17 then causes the operation of the fan means 16, so as to generate the flow of air through the nozzle 15. This air flow circulates in the conduit 21, formed by the upstream chamber 21a and the downstream tubular portion 21b, and is projected through the nozzle 15 whose shape ensures its conformation in annular air space and its rearward orientation (slightly towards the rear face 2a). When the user moves his hands in translation through the front opening 6 to remove them from the drying zone 4, the air knife L then acts to eliminate the water by phenomena combining push, barrier to water and evaporation.

The water flowing from the hands is here recovered by the collector 7. If necessary, especially to optimize the drying, the user can proceed one or more back and forth through the front opening 6. This drying device 1 is particularly effective, as its drying air blade provides action on the top and bottom of the hands, but also on the sides.

According to an alternative embodiment not shown, two slot-shaped nozzles are provided along the length of the two longitudinal portions 11 of the tubular inner surface 10, each to generate a longitudinal air gap. These two longitudinal air blades are oriented towards each other. In this case, the lateral portions 12 of the tubular inner surface 10 may be devoid of air jet nozzles; they may also be each equipped with a secondary nozzle, in the form of a slot to form together a discontinuous slot, for the projection of a side air plate in addition to the two longitudinal air blades mentioned above. In the present embodiment, a single printed circuit 18 carries all the electronic / electrical components useful for the operation of the hand dryer device 1. This configuration is particularly advantageous for facilitating the assembly of the hand dryer device 1 and the operations after sales service. But according to an alternative embodiment possible, it could quite be envisaged to have the electronic / electronic components on at least two printed circuits.

For example, a first printed circuit constitutes the sensor 19a and a second printed circuit carries in particular the controller 19b. The embodiment of the hand dryer device 1 must also not be considered as limiting. Indeed, the capacitive proximity sensor according to the invention can equip any other desired form of hand dryer device. For example, this capacitive proximity sensor can equip a hand dryer device whose spray nozzle is provided on its underside for the projection of a flow of hot air. The capacitive detection zone is thus formed at the same lower face and extends at least partially in the nozzle drying zone. In general, a hand dryer device according to the invention has the advantage of being simpler in terms of design and assembly, but also to be more reliable.

In particular, it is no longer necessary to provide a window with a transparent / translucent sealing piece, to let optical detection radiation pass.

Claims (1)

1. A hand dryer device comprising: (i) means (16) for producing an air flow, (ii) at least one nozzle (15) which is connected to said means for producing the flow of air. air (16), for the projection of an air jet able to dry the hands of a user in a drying zone (4), and (iii) means (17) for the control of said means of production an air flow (16) comprising at least one proximity detector (19) provided with a detection zone (Z), said control means (17) being intended to put said flow generating means into operation; air (16) in the presence of the user's hand (s) in said detection zone (Z), characterized in that said proximity detector (19) consists of a capacitive proximity detector. 2. Hand dryer device according to claim 1, characterized in that it comprises at least one outer part (7, 11b) constituting at least a portion of the envelope of said hand dryer device (1), which outer part (7, 11b) is made of an opaque material, and in that the capacitive proximity sensor (19) is positioned behind said outer part (7, 11b) and has a detection area (Z) which extends to across and facing this outer piece (7, 11b). 3. Hand dryer device according to any one of claims 1 or 2, characterized in that it comprises a front wall (2b), facing which is intended to come to position an individual, and in that it comprises at least one metal part (2b) forming a barrier to the detection zone (Z) of the capacitive proximity detector (19) at the level of said front wall (2b), so as to define the front limit of said detection zone (Z). 4. A hand dryer device according to any one of claims 1 to 3, characterized in that the drying zone (4) comprises a front opening (6) for the passage of the hands of the user who is equipped with at least one slit-shaped nozzle (15) for the projection of at least one air knife (L) adapted to remove the water present on said hands, and in that the detection zone (Z) of the detector capacitive proximity means (19) extends just behind said slot-shaped nozzle (15). 5. A hand dryer device according to claim 4, characterized in that the front opening (6) has an elongated shape, adapted for positioning the two hands of the user side by side and in the same horizontal plane, in the slit-shaped nozzle or nozzles (15) extend the entire length, or approximately the entire length, of said front opening (6), and in that the detection zone (Z) of the proximity sensor capacitive (19) extends over at least half the length of said front opening (6). 6. Hand dryer device according to any one of claims 4 or 5, characterized in that the drying zone (4) comprises a bottom wall (7) formed at the rear of said front opening (6) to form a water collector, and in that the capacitive proximity sensor (19) is positioned under said bottom wall (7) and has a detection zone (Z) extending upwardly and through said lower wall ( 7). 7. A hand dryer device according to any one of claims 4 to 6, characterized in that the front opening (6) of the drying zone (4) is delimited by a tubular inner surface (10) having two portions longitudinal members (11a, 11b) connected by two lateral portions (12), and in that the slot-shaped nozzle or nozzles (15) are provided at least along the length of at least one of said longitudinal portions (11a, 11b ). 8. Hand dryer device according to any one of claims 1 to 7, characterized in that the capacitive proximity sensor (19) is implanted on at least one printed circuit (18). 9. A hand dryer device according to claim 8, characterized in that the capacitive proximity sensor (19) comprises a sensor (19a) consisting of a conductive lining covering at least a portion of one of the faces (18b) of the printed circuit board (18). 10. A hand dryer device according to any one of claims 8 or 9, characterized in that the capacitive proximity sensor (19) further comprises a controller (19b) connected with said sensor (19a). 11. Hand dryer device according to claim 10, characterized in that the controller (19b) and the sensor (19a) are carried by the same printed circuit (18), said sensor (19a) being implanted on a first face ( 18b) and the controller (19b) being implanted on a second face (18a). 12. A hand dryer device according to claim 11, characterized in that the printed circuit (18) carries the sensor (19), as well as the electronic / electrical components for the operation of said hand dryer device (1). 13. A hand dryer device according to any one of claims 1 to 12, characterized in that the detection zone (Z) of the capacitive proximity sensor (19) is between 10 and 20 cm.