FR2967336A1 - HAIRDRYER CONDUCTED WITH SPECIAL AIR - Google Patents

Abstract

The invention relates to a hair dryer comprising an elongate tubular body (2) of longitudinal axis Δ which is open at a so-called output end (4) and which comprises in the vicinity of a rear end (5) opposite to the outlet (4) a peripheral air inlet (6), a motor-fan unit (10) disposed in the tubular body (2) between the inlet (6) and the outlet (4) and which comprises an electric motor (16 ) driving in rotation, along an axis parallel to or coincident with the axis Δ, a rotor (11) located in a working chamber (12) and adapted to suck the air through the inlet (6) and push it back through the outlet (4), the motor (16) being located downstream of the rotor (11) in the direction of air flow, where it comprises between the air inlet (6) and the working chamber (12) a suction duct (13) which has an axial length (I) greater than or equal to the internal diameter (Da) of the suction mouth (26).

Description

TECHNICAL FIELD OF THE INVENTION [1] The present invention relates to the technical field of hair dryers and, more particularly, to electric hand-held hairdryers used by professionals and / or individuals.

State of the Prior Art: [2] A hand-held hair dryer generally comprises an elongated tubular body which contains a motor-fan unit formed of a helix integral with the drive shaft of an electric motor. The electric motor is held in the tubular body by rigid arms which ensure the centering of the helix relative to the inner wall of the tubular body. Most often the tubular body is equipped with a handle comprising a connection cord to the electrical network and control members of the operation of the electric motor. During the operation of the hair dryer, the motorcycle unit 20 sucks air through an inlet located at the rear of the tubular body to push back through an outlet located at the front of the latter. The hair dryer also comprises, most often, downstream of the propeller means for electric heating of the blown air. [3] Such a hair dryer gives satisfaction with regard to its primary function of drying the hair. However, known hair dryers have the disadvantage of being particularly noisy which induces fatigue during their prolonged use by a professional or a nuisance for the user and those around him. [4] There has therefore been a need for a new type of hair dryer which has similar heating and air flow performance as hair dryers according to the prior art while inducing lower noise nuisance. . Exhibit of the invention:

[05] In order to achieve this object, the invention relates to a hair dryer comprising: an elongate tubular body of longitudinal axis A which is open at a said output end and which comprises near a rear end, opposite at the outlet, a peripheral air inlet, a motor-fan unit disposed in the tubular body between the inlet and the outlet and which comprises an electric motor driving in rotation along an axis parallel to or coincident with the axis A, a rotor located in a working chamber and adapted to draw air through the inlet and discharge through the outlet, the motor being located downstream of the rotor in the direction of air flow. According to the invention, the hair dryer comprises between the air inlet and the working chamber a suction pipe which has an axial length greater than or equal to the internal diameter (Da) of the suction mouth. The implementation of such a suction duct limits the propagation of airborne noise from the operation of the motorcycle fan unit. [06] According to a feature of the invention to optimize the flow of air and to limit the propagation of airborne noise, the hair dryer comprises between the air inlet and the working chamber a duct of annular suction with a central core. It is understood that the cross section at the axis A of the duct is annular. [7] According to another characteristic of the invention, the central core has a decreasing outer diameter towards the working chamber.

[8] According to a feature of the invention to limit the propagation of noise including vibratory and solid origin, the central core is formed at least in part of a cellular material. [9] According to an alternative embodiment, the rotor forms a centrifugal fan adapted to suck the air into the working chamber parallel to the longitudinal axis A and discharge the air perpendicular to the longitudinal axis. The use of such a centrifugal fan makes it possible to obtain, at equivalent dimensions, a high internal pressure with an air flow rate similar to that of a propeller or helicoidal fan with a lower rotation speed and therefore a noise generated by the engine and the rotor less important. It is meant that the peripheral entrance of the tubular body is arranged laterally to the body and not to the rear of the body. The arrangement of the peripheral air inlet - and not back to the tube - associated with the centrifugal fan makes it possible to reduce the noise relative to the user's ears since this combination makes it possible to reduce by a few decibels the noise produced in the rear region of the hair dryer to locate it on more scattered areas around the hair dryer. The air inlet is not - even partially - in the longitudinal axis A; preferentially the air inlet is exclusively peripheral, forming one or more openings at least partially on the device, or even a complete opening over 360 °. [10] According to the invention, the rotor can be made in different ways and, for example, to understand that a single hub from which extend radial branches supporting blades. According to a preferred embodiment of the invention, the rotor comprises an A-axis driving plate supporting blades which are connected to the plate by their edge and which extend from a central region of the plate to at least an outer peripheral edge of the tray. This embodiment has the advantage of allowing a good channeling of the air in the working chamber, the plate forming the floor of the latter. Thus, it is not necessary to provide a fixed partition between the motor and the working chamber.

[11] According to a variant of this preferred embodiment, the rotor comprises less than nine vanes and preferably seven vanes. Indeed, the inventors have had the merit of highlighting that beyond eight blades the fan generates more noise while having a lower flow than that obtained with fewer blades. It also appeared that a number of seven blades made it possible to obtain an optimal compromise between speed and noise for rotational speeds of between 7000 and 12 000 rpm.

[12] According to another variant of this preferred embodiment and to further optimize the operation of the fan, the blades have a height, measured parallel to the axis A, between 0.3 and 0.5 times the diameter of the rotor. Thus, when the fan has a diameter of the order of 65 mm, the blades may, for example, have a height measured parallel to the axis A between 20 mm and 30 mm. Preferably, the height measured parallel to the axis A is between 22 and even 25 mm and 30 mm. The desired effect of noise reduction is present because the surface of the blades is modified, the inventors having preferred to modify the height of the blades rather than their width. They have found that changing the width of the blades without questioning the low cost engines and without adding expensive additional bearing has the effect of increasing unwanted unbalance effects in the hair dryer.

According to another variant of this preferred embodiment, each blade has, between an internal leading edge and an external trailing edge, a rope which forms, with a radial plane tangent to the leading edge, a non-zero negative angle, the positive direction corresponding to the direction of rotation of the rotor during normal operation of the hair dryer. This variant embodiment makes it possible to form a so-called "reaction" centrifugal fan making it possible to obtain larger outlet pressures than if the blades had a radial straight configuration. Increasing the pressure at the outlet of the working chamber makes it possible to obtain a flow rate of the fan that is less sensitive to pressure drops induced by the obstacles situated downstream of the working chamber, such as, for example, straightening and channeling fins. air flow, means for electric heating of the blown air or a nozzle for styling.

[14] According to a variant of the preferred embodiment, designed to optimize the flow of air, the rotor comprises, opposite the plateau, an annular ceiling which is integral with the blades and which defines in its center a circular suction mouth. Such an annular ceiling avoids recirculation phenomena of the air at the edge of the blade located opposite the drive plate. [15] In the context of this variant, the rotor has a maximum external diameter De and the suction port an internal diameter Da which can verify the following relationship: Da> 0.6, to ensure optimal flow and pressure . According to a feature of the preferred embodiment, the rotor has a maximum outer diameter of 65mm. [17] According to another variant of the preferred embodiment, the motor has a rotation speed less than or equal to 10,000 revolutions / min. [18] According to yet another feature of the invention also for optimizing the flow of air, the drive plate comprises a central stud which has a diameter substantially equal to the diameter of the adjacent portion of the core. [1.9] According to an alternative embodiment of the invention intended to limit the direct propagation of the airborne noise generated by the rotation of the fan and the electric motor, the suction duct comprises at least one air precanalisation circuit. (32, 33) to facilitate the penetration of air into the blades.

[20] According to a characteristic of this variant, the precanalisation circuit of the air (32, 33) to facilitate the penetration of air into the blades is formed by at least one anti-noise rib substantially perpendicular to the wall external suction line. [21] According to a characteristic of this variant, designed to limit pressure drops, each rib defines a central passage whose diameter is greater than or equal to the diameter of the suction mouth. [22] According to another feature of this variant also to optimize the air flow without impairing the noise trap function, at least one anti-noise rib has a helical shape.

[23] According to yet another feature of the invention, the suction pipe has an inner wall which converges towards the suction mouth of the rotor.

[24] According to a variant of the invention to limit the propagation of noise related to the operation of the engine, the outer surface of the motor is at least partially surrounded by a shell of cellular material.

[25] According to a feature of this embodiment, the engine casing comprises openings and / or ventilation channels. [26] According to another embodiment of the invention for attenuating the transmission of vibrations of the engine in operation, the hair dryer comprises at least one engine suspension cradle comprising an inner annular collar for holding the motor and a collar outer annular bearing on a member of the tubular body, the inner collar and the outer collar being coaxial and connected by at least two S-arms which each have an elastic core in a circular arc parallel to the inner and outer collars. The implementation of such a suspension cradle provides a mechanical decoupling between the motor and the tubular body while ensuring optimal centering of the motor relative to the surrounding elements constituting the tubular body of the hair dryer.

[27] According to one characteristic of the invention, the hair dryer comprises a tubular casing, for receiving the motor, located downstream of the working chamber and maintained in the tubular body by radial fins ensuring an air channeling from the working room. Such a casing then performs a dual function of maintaining the motor and rectifying the flow of air from the working chamber so as to transform the radial flow at the outlet of the fan or rotor into an axial flow at the outlet of the tubular body.

[28] Alternatively to the cradle, to mitigate the transmission of vibrations of the engine in operation, the hair dryer may comprise two rings of foam whose axis coincides with that of the motor and a tab bearing on the rotor to hold the engine in place.

[29] According to a feature of the invention to reduce the propagation and emission of noise by the tubular body of the hair dryer, the outer surface of the tubular body is at least partly formed of a thickness of a material alveolar.

[30] The hair dryer according to the invention has, at equivalent performance or even higher, a lower noise than that of hair dryers according to the prior art.

[31] In order to objectively quantify the noise emitted by a hair dryer in operation and in particular vis-à-vis the person whose hair is dried by means of the hair dryer, it appeared the need for a protocol measurements providing objective data according to a reproducible procedure for making relevant comparisons between different hair dryers.

[32] For this purpose the invention also relates to a method for evaluating the noise emitted by a hair dryer of longitudinal axis A with a forward exit, the method comprising the following steps: ## EQU1 ## a dummy human head with two microphones, one placed at the level of the left ear and the other at the level of the right ear of the dummy head on each side of the sagittal plane S, symmetry of the head, placement of the hairdryer operating in a rear side of the head 5 with the outlet directed towards the head and located at a distance D of the head of between 5 cm and 20 cm, the longitudinal axis of the hair dryer being included in a plane vertical V forming an angle α between 30 ° and 50 ° with the sagittal plane S, of symmetry of the head: positioning of the longitudinal axis of the hair dryer in a horizontal plane H passing through the microphones, then measuring the sound pressure left and right by the microphones and calculating the average dB1 of these two measurements, positioning the longitudinal axis of the hair dryer with the outlet facing downwards, in an inclined plane P making with the horizontal plane 15 an angle R between 30 ° and 50 °, then measuring the left and right acoustic pressure by the microphones and calculating the average dB2 of these two measurements.

[33] Performing these two measurements provides a first objective indication of the noise emitted by the hair dryer. These measurements are relevant especially if we consider that the hair dryer emits noise symmetrically about its longitudinal axis. [34] In order to refine the measurements and in particular to take into account possible noise emission asymmetries, the method further comprises, according to an alternative embodiment, the following steps: - placement of the hair dryer in operation on the other rear side of the head with the exit directed towards the head and situated at the distance D from the head, the longitudinal axis of the hair dryer being included in a vertical plane V 'symmetrical of the plane V with respect to the plane sagittal S, of symmetry of the head T: 3o - positioning of the longitudinal axis of the hair dryer in the horizontal plane H then measurement of the left and right acoustic pressure by the microphones and calculation of the average dB3 of these two measurements, positioning of the longitudinal axis of the hair dryer with the output facing downwards, in the inclined plane P and measurement of the left and right acoustic pressure by the microphones and calculation of the average dB4 of these two measurements. [35] According to an implementation characteristic, the method comprises a step of calculating the average of the values dB1 and dB2 or the average of dB1, dB2, dB3 and dB4.

[36] According to another implementation characteristic aimed at quantifying the nuisances for a user of the hair dryer drying the hair of another person, the evaluation method according to the invention comprises a measuring step the sound pressure dB5 at a point on the longitudinal axis at the rear of the hair dryer at a distance D of between 15 cm and 30 cm. [37] Of course, the various features, shapes and variants of embodiment and implementation of the invention can be associated with each other in various combinations to the extent that they are not incompatible or exclusive of any of the other. Brief description of the drawings:

[38] Furthermore, various other features of the invention will become apparent from the detailed description below made with reference to the accompanying drawings which illustrate a non-limiting embodiment of a hair dryer according to the invention, as well as a non-limiting form of implementation of a method for evaluating the operating noise of this hair dryer. - Figure 1 is a schematic longitudinal section of a hair dryer according to the invention. FIG. 2 is a schematic overall view of the motorcycle fan assembly of the hair dryer shown in FIG. 1. FIG. 3 is a schematic perspective view of the fan of the motorcycle fan assembly shown in FIG. 2. FIG. An axial section of the fan shown in FIG. 3. FIG. 5 is a diagrammatic perspective view showing a sound-absorbing rib intended to be put in place in the suction duct of the hair dryer illustrated in FIG. 1. FIG. schematic showing the electric motor, fan motor group shown in Figure 2, associated with two suspension cradles.

FIGS. 6 ', 6 "and 6"' are schematic perspective views showing the electric motor, of the fan motor assembly illustrated in FIG. 2, associated with two fixing rings. FIG. 7 is a schematic perspective showing a cradle of suspension of the electric motor of the motorcycle fan unit.

Figure 8 is a schematic perspective illustrating a method of measuring noise emitted by a hair dryer.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION [39] A hair dryer, according to the invention, as illustrated in FIG. 1 and generally designated by reference numeral 1, comprises an elongated tubular body 2 that is substantially symmetrical. of revolution along a longitudinal axis A, except for a handle 3 which extends from the body 2 in a direction substantially perpendicular to the axis A. The tubular body 2 may be formed in several pieces and, for example , realized in the form of two half-shells of plastic assembled in an axial plane passing through the handle 3 and supplemented by inserts. [40] The tubular body 2 comprises, at the front, an open end 4 of the air outlet. The outlet 4 has a substantially circular shape, it being understood that the air outlet 4 could also have an elliptical or oblong shape. The tubular body 2 further comprises, near a rear end 5, opposite the outlet 4, a peripheral air inlet 6 which extends over a portion of or around the entire periphery of the body 2. [41] to ensure air blowing through the outlet 4, the hair dryer 1 comprises a motorcycle fan unit 10 disposed in the tubular body 2 between the inlet 6 and the outlet 4. The motorcycle fan assembly 10 comprises a rotor 11 which is located in a working chamber 12 connected, on the one hand, to the air inlet 6 by a suction duct 13 and, on the other hand, to the outlet of the air 4 via a blowing duct 14. The rotor 11 is integral with a drive shaft 15 of an electric motor 16 disposed inside the blowing duct 14. [42] According to an essential characteristic of the invention, the rotor 11 forms a centrifugal fan adapted to draw air from the duct 13 into the working chamber 12 parallel to the longitudinal axis A and the discharge radially to join the blowing duct 14 after being deflected at 90 ° by the outer peripheral wall 17 of the working chamber 12. [43] According to the illustrated example, the rotor 11 comprises, as shown by the Figures 2 and 3, a drive plate 20 which is located on the side of the motor 16 and which defines the floor of the working chamber 12 to separate it from the motor 16 and the blowing duct 14. The rotor 11 comprises seven blades 21 which extend perpendicularly to the drive plate 20 opposite the engine 16. The seven blades 21 have, seen in an axial plane, an arcuate cross section as shown in Figure 4. Each blade 21 then has a rope C which extends between a leading edge 23, located in a central region of the plate 20, and a trailing edge 24 located near the outer periphery of the plate 20. According to the illustrated example, the rope C of each dawn 21, shape with the plane radi al R, passing through the corresponding leading edge 23, a non-zero negative angle A and, in the present case, of the order of -90 °. The positive direction of measurement of the angles corresponds to the direction of rotation of the rotor 11 as illustrated by the arrow F1. Such a configuration of the blades makes it possible to produce a so-called "reaction" centrifugal fan making it possible to obtain higher pressures at the outlet of the working chamber than if the blades had a radical straight shape. Obtaining a high pressure at the outlet of the working chamber 12 makes it possible to obtain an airflow that is less sensitive to pressure losses in the blowing duct 14. [44] In order to increase the aerodynamic performance of the rotor 11, it is also implemented an annular ceiling 25 which is integral with the blades 21 and which defines at its center a circular suction mouth 26. So that the annular ceiling 25 does not have a negative influence on the rotor performance , the internal diameter Da of the suction mouth 26 is chosen to be at least equal to 0.6 times the outer diameter De of the rotor 11. [45] In order to be integrable in a body of a reasonably sized hairdryer the rotor may be chosen so as to have an outer diameter of less than 70 mm and, for example, of the order of 65 mm. [46] Also in the sense of an aerodynamic optimization of the rotor and in the case where it is intended to operate at rotational speeds of between 7000 and 12 000 rpm, the blades 21 will be dimensioned to have a height axial h, measured parallel to the axis A, between 0.30 and 0.5 times the outer diameter of the rotor. In the case of a rotor whose outer diameter is of the order of 65 mm, the blades 21 will be made to have a height h between 20 mm and 30 mm, preferably between 22 and 30 mm. In order to limit airborne noise and vibrations, the rotational speed of such a rotor 11 will preferably be chosen to be less than or equal to 10,000 rpm.

[47] In order to limit the direct propagation of noise outside the suction duct 13, the latter will be made to have an axial length 1 greater than or equal to the internal diameter Da of the suction mouth 26. The term " axial length 1 "illustrated in Figure 1 by a curved arrow, the length corresponding in operation to the length of pavilion traversed by the fluid. [48] In order to further optimize the attenuation of the noises, the suction duct 13 comprises a central core 30 which gives it an annular shape from the air inlet 6 to substantially the working chamber 12. The surface of the core 30 delimiting the suction duct 13 has, according to the illustrated example, a symmetrical shape of revolution of axis A with a concave generatrix so that the outside diameter of the central core 30 decreases towards the working chamber. 12. In order to ensure aeraulic continuity with the core 30, the drive plate 20 comprises a central stud 31 which has a diameter substantially equal to the diameter of the adjacent portion of the core 30. The noise-absorbing effect of the core 30 can be further strengthened by making the core at least partly of a cellular material such as polyurethane foam based on polyester. [49] The core 30 may then be formed by a rigid shell filled in part at least said cellular material. The core may also be in the form of a molded piece of this cellular material.

[50] According to the illustrated example, the outward propagation of the noises of the suction duct 13 is also limited by the presence of at least one precanalisation circuit to facilitate the penetration of air into the blades 20 (FIG. depending on the direction of rotation of the rotor). This precanalization circuit of the air (32, 33) is formed by at least one anti-noise rib 32 substantially perpendicular to the external wall 33 of the suction duct 13. According to the example illustrated, the noise-reducing rib 32 consists of a insert of helical shape as shown in Figure 5. In order not to have a penalizing effect from a ventilation point of view, the rib 32 may be made to define a free central passage 34 whose outer diameter is greater than or equal to the diameter Da of the suction mouth 26. Of course, the central passage 34 could also have an outer diameter less than or equal to that of the suction mouth 26, in which case the channel or conduit 3o suction 13 will be made so as to present at the suction port 26 a diameter greater than or equal to the internal diameter Da of the latter. It may further be noted that, according to the illustrated example, the outer wall 33 of the suction duct 13 converges towards the suction mouth 26.

[51] In order to limit the spread of noise and vibration of the motor 16 in operation, the hair dryer 1 comprises a tubular housing 40 within which the motor 16 is confined. The tubular housing 40 has a cylindrical shape of revolution of axis A. The tubular housing 40 is centered inside the blowing duct 14 by a coaxial belt 41 resting against the inner wall of the blowing duct 14. The belt 41 and the tubular housing 40 are connected to each other by radial fins 42 which provide a passage space for air between the housing 40 and the belt 41 and which channel the air from the working chamber 12 to oppose its eventual swirling motion. [52] The confinement of the motor 16 in the tubular housing 40 is provided by means of two discs 45, visible Figures 1 and 2, made of a cellular material such as a polyurethane foam based on polyester. [53] According to the illustrated example and as shown more particularly in Figure 2, the outer surface of the motor 16 is further covered or surrounded by a thickness 46 of cellular material. The motor casing, formed by the discs 45 and the thickness 46, preferably comprises openings and / or ventilation channels 47 so as to allow heat removal from the motor 16 and thus ensure a satisfactory service life. . [54] In order to limit the propagation of vibration of the motor 16 to the rest of the tubular body 2, the motor 16 is held in the casing 40 by at least one and, according to the illustrated example, two suspension cradles 50, better visible at 6, which provide a mechanical decoupling between the motor 16 and the housing 40. Each suspension cradle 50 comprises, as is apparent from Figure 7, an inner annular collar 51 adapted tightly around the motor 16. Each cradle 50 further comprises an outer annular collar 52 bearing on the inner wall of the casing 40. It should be noted that for the purposes of the invention, the casing 40 is a constituent element of the tubular body 2 even if it consists of by a patch in the latter. The inner annular collar 51 is connected to the outer collar 52 by at least two and, according to the example shown, three arms 53 which have a general S shape. Each arm has an elastic core 54 which is parallel to the collars 51 and 52 and which ensures the damping of the vibrations during the operation of the motor 16. [55] Alternatively, as illustrated in FIGS. 6% 6 "and 6" ', to attenuate the transmission of the vibrations of the engine in operation, the fixing of the motor on the support The stator of the hair dryer can be made at both ends of the motor by two bearing rings 71, 72 of foam arranged on each side of the engine whose axis coincides with that of the motor 16 and by a tongue 70 slightly deformed and bearing on the rotor 11 to hold the motor 16 in place and provide the anti-vibration. [56] The hair dryer 1 further comprises downstream of the motorcycle fan unit 10 means 55 for electric heating of the air blown. The heating means 55 can be made in any suitable manner and for example in the form of an electric heating resistance held by radial fins made of insulating materials such as for example mica sheets.

[57] In order to contribute to the damping of the operating noise of the hair dryer 1, at least some parts of the external surface of the body may also be made of cellular material such as a polyurethane foam based on polyester.

[58] The hair dryer 1, according to the invention, thus constituted operates, heating performance and equivalent air flow, emitting less noise than hair dryers according to the previous. [59] In order to benefit from an objective basis of comparison which accounts for the sound performance of a hair dryer both with regard to the person holding the hair dryer and the person whose hair is dried, or with regard to the user drying the hair alone, the invention provides a measurement method for objectively quantifying the acoustic pressure experienced by the environment. [60] In order to quantify the noise received by the person whose hair is dried by means of the hair dryer, it is proposed to use a human dummy head T as illustrated in FIG. 8. The dummy head T is equipped with two microphones 60 one disposed in the right ear and the other in the left ear of the head T. The microphones 60 are connected to a measurement and processing unit, not shown, for measuring the sound pressure at each of the microphones and perform various calculations on the measured values. [61] To perform a first measurement dB1 the hair dryer 1 in operation is placed in a first position P1 of a rear side, for example right, of the head T with the longitudinal axis A contained in the horizontal plane H passing by the microphones 60 and making with a sagittal plane S symmetry of the head T, an angle α between 30 ° and 50 ° and, for example, equal to 45 °. [62] To perform a second measurement dB2, the hair dryer 1 in operation is raised to a second position P2 so that its output is directed downwards towards the head T. In this second position P2, the longitudinal axis A is located in an inclined plane P making an angle R with the horizontal plane H that it intersects at the line passing through the microphones 60. The angle R has a value between 30 ° and 50 ° and for example equal to 45 °. In the second position P2, the longitudinal axis A forms the same angle a as in the position P1 with the sagittal plane S.

[63] A third measurement dB3 is also realized in a third position P3 symmetrical with the first position P1 with respect to the sagittal plane S. Finally, a fourth measurement dB4 is made in a fourth position P4 symmetrical with the second position P2 relative to in the sagittal plane S. It can be noticed that in the positions P1 and P2, the longitudinal axis A is included in the same vertical plane V while in the positions P3 and P4 the longitudinal axis A is included in the same vertical plane V 'symmetrical of the vertical plane V with respect to the sagittal plane S. [64] It should be noted that in each of the measuring positions P1 to P4, the outlet 4 is placed at a distance D, measured along the axis A , the outer surface of the head T between 5 cm and 20 cm and for example equal to 10 cm. [65] Each dB1 to dB5 value corresponds to the sum of the sound pressure measurements of the two microphones 60 for each corresponding position. [66] In order to give a synthetic score, an average dB of dB1 to dB2 measurements or dB1 to dB4 measurements can be made. [67] Thus, in the case of a hair dryer according to the invention having a flow rate of about 68 m 3 / h-with a heating power of about 1800 W the average MdB has a value of about 69 dB while for a hair dryer according to the prior art having the same flow rate and the same heating power, the average MdB has a value of approximately 75 dB.

[68] The evaluation of the noise generated by the operating hair dryer 20 can be completed by measuring the sound pressure dB5 at a point on the longitudinal axis A at the rear of the hair dryer at a distance D 'included between 15 cm and 30 cm and for example equal to 20 cm. This measurement dB5 accounts for the noise experienced by a user of the hair dryer 1 who dries the hair of another person. [69] According to the example described above and illustrated in the figures, the constituent elements of the tubular body such as for example the outer casing of the body, the casing 40, the core 30 are independent elements. However, these different elements could be an integral part of the two hulls which constitute the envelope. Similarly, according to the illustrated example, the blowing duct 2967336 1s tightens at the outlet 4. Naturally, such a configuration is not necessary for the production of a hair dryer according to the invention and the blowing duct. 14 could have a constant section over its entire length.

[70] Of course various other modifications may be made to the hair dryer according to the invention in the context of the appended claims.

Claims (2)

CLAIMS1, Hair dryer comprising: - an elongate tubular body (2) of longitudinal axis A which is open at a said output end (4) and which comprises near a rear end (5) opposite the outlet ( 4) a peripheral air inlet (6), - a motor-fan unit (10) disposed in the tubular body (2) between the inlet (6) and the outlet (4) and which comprises an electric motor (16). ) driving in rotation, along an axis parallel to or coincident with the axis A, a rotor (11) located in a working chamber (12) and adapted to suck the air through the inlet (6) and push it back by the outlet (4), the motor (16) being located downstream of the rotor (11) in the direction of air flow, characterized in that it comprises between the air inlet (6) and the air chamber work (12) a suction pipe (13) which has an axial length (1) greater than or equal to the internal diameter (Da) of the suction mouth (26). 2. Hair dryer according to claim 1, characterized in that it comprises between the air inlet (6) and the working chamber (12) an annular suction duct (13) with a central core (30). ). Hair dryer according to claim 2, characterized in that the central core (30) has a decreasing outer diameter towards the working chamber. Hair dryer according to one of claims 2 to 3, characterized in that the central core (30) is formed in part of at least one foam material. . Hair dryer according to one of Claims 1 to 4, characterized in that the rotor (11) forms a centrifugal fan adapted to suck the air into the working chamber (12) parallel to the longitudinal axis A and to expel the air perpendicular to the longitudinal axis. 19256. Hair dryer according to one of claims 1 to 5 characterized in that the rotor (11) comprises a drive plate (20) of axis A supporting blades (21) which are connected to the plate by their edge and extending from a central region of the tray (20) to at least one outer peripheral edge of the tray (20). 7. Hair dryer according to one of claims 1 to 6, characterized in that the rotor (11) comprises less than nine vanes (21) and, preferably, seven vanes (21). 8. Hair dryer one of claims 6 to 7, characterized in that the blades (21) have a height (h) measured parallel to the axis A between 0.3 and 0.5 times the diameter (De ) of the rotor (11). 9. Hair dryer according to one of claims 6 to 8, characterized in that the blades (21) have a height (h) measured parallel to the axis A between 20 mm and 30 mm. 10, hair dryer according to one of claims 6 to 9, characterized in that each blade (21) has, between an inner leading edge (23) and an outer trailing edge (24), a rope ( C) which forms with a radial plane (R) tangential to the leading edge (23) a non-zero negative angle (A), the positive direction corresponding to the direction of rotation (F1) of the rotor (11) during normal operation of the hair dryer. . Hair dryer according to one of claims 6 to 9, characterized in that the rotor (11) comprises, opposite the plate (20), an annular ceiling (25) integral with the blades which defines at its center a mouth circular suction 30 (26) .15`12. Hair dryer according to one of Claims 1 to 11, characterized in that the rotor (11) has a maximum external diameter (De) and the suction mouth (26) has an internal diameter (Da) which satisfies the following relationship at 0.6. From 13 °. Hair dryer according to one of claims 1 to 11, characterized in that the rotor (11) has a maximum external diameter (De) less than or equal to 65mm. 14. Hair dryer according to one of claims 1 to 13, characterized in that the motor (16) has a rotation speed less than or equal to 10,000 revolutions / min. 18. Hair dryer according to one of claims 1 to 13, characterized in that the drive plate (20) comprises a central stud (31) which has a diameter substantially equal to the diameter of the adjacent portion of the core (30). ). 16. Hair dryer according to one of claims 2 to the preceding, characterized in that the suction duct (13) comprises at least one precanalisation circuit of the air (32, 33) to facilitate the penetration of the air in the blades. 17. Hair dryer according to the preceding claim characterized in that the precanalization circuit of the air (32, 33) is formed by at least one anti-noise rib (32) substantially perpendicular to the outer wall (33) of the duct. suction (13). 18. Hair dryer according to claim 17, characterized in that each rib (32) defines a central passage (34) whose diameter is greater than or equal to the diameter (Da) of the suction mouth (26). 19. A hair dryer according to claim 16, wherein the at least one sound-absorbing rib has a helical shape. Hair dryer according to one of the preceding claims, characterized in that the duct suction nozzle (13) has an inner wall (33) which converges towards the suction mouth (26) of the rotor (11). 21, Hair dryer according to one of claims 1 to 20, characterized in that the outer surface of the motor (16) is at least partially surrounded by a casing (46,45) of cellular material. 22. Hair dryer according to claim 21, characterized in that the motor casing (16) comprises openings and / or ventilation channels (47). 23. Hair dryer according to one of claims 1 to 22, characterized in that it comprises at least one cradle (50) for suspending the motor (16) comprising an inner annular collar (51) for holding the motor and an outer annular collar (52) for bearing on an element of the tubular body (2), the inner collar (51) and the outer collar (52) being coaxial and connected by at least two "S" arms (53) which each have a resilient core (54) in a circular arc parallel to the inner (51) and outer (52) collars. 24. Hair dryer according to one of claims 1 to 23, characterized in that it comprises a tubular housing (40) for receiving the motor (16) located downstream of the working chamber (12) and maintained in the tubular body by radial fins (42) providing ducting air from the working chamber (12). 25. Hair dryer according to one of claims 1 to 22 characterized in that it comprises two foam rings (71, 72) whose axis coincides with that of the motor (16) and a tongue (70) bearing on the rotor (11) for holding the motor (16) in place. 52, Hair dryer according to one of the preceding claims, characterized in that the outer surface of the tubular body (2) is partly at least thickness of a cellular material.