KR20180034531A - A hair dryer comprising an exhaust pipe having a Coanda effect - Google Patents

Abstract

The present invention relates to a hair dryer (1) which is intended to provide excellent performance in drying function and feeling while reducing noise. The hair dryer includes an air circulation chamber 3 having an inlet region 4 and an outlet region 5, an air circulation system 6 and a heating element 10. The hair dryer also includes a conduit (11) disposed within the extension of the circulation chamber. The conduit has an upstream end (12), a downstream end (13), and a neck (14) disposed between the ends and is disposed between the upstream end and the neck and has a downward A first portion of the conduit forming the angle a and a second portion of the conduit disposed between the neck and the downstream end and forming a resume angle [beta] from 1.5 [deg.] To 3.5 relative to the longitudinal axis.

Description

A hair dryer comprising an exhaust pipe having a Coanda effect

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hair dryer, and aims to provide excellent performance in terms of drying function and feeling while reducing noise of a device.

Traditionally, hair dryers include an air inlet area, an air circulation chamber, an air outlet area, an air circulation system and a heating element. The air circulation system and the heating element are integrated within the circulation chamber. The air circulation system sucks the outside air through the inlet area and then flows the air in the circulation chamber while passing the heating element from the upstream side to the downstream side. The slightly heated air is then passed through the exhaust area to dry the hair It blows out.

Patent application US 2013/0111777 A1 disclosing a hair dryer configured to amplify the air flow rate at the time of discharge is known. For that purpose, the hair dryer includes an outlet head configured to generate a coanda effect that causes an acceleration of the air flow rate and to increase its air flow rate. According to the design, the discharged air flow is perpendicular to the air flow in the circulation chamber, which requires strong power of the circulation system in order to make the Coanda effect effective, and the power unit provided in the circulation system operates at high speed . Thus, the design leads to problems faced in conventional hair dryers, regardless of the design, such as high energy consumption and harmful noise.

The present invention aims at alleviating the drawbacks of conventional hair dryers and optimizing the generation of the Coanda effect, especially in the air exhaust area.

For that purpose, the present invention relates to a hair dryer comprising an air circulation chamber with an inlet region and an outlet region. The hair dryer also includes an air circulation system and a heating element disposed within the circulation chamber. The air circulation system sucks air from the outside through the inlet region and then flows the air through the heating element from the upstream to the downstream in the circulation chamber and the slightly heated air is blown out through the outlet region . The hair dryer has means for adjusting the temperature of the heating element to vary the temperature of the air blown out as it is known, and means for adjusting the air circulation speed in the circulation chamber, in particular by acting on the rotational speed of the motor driving the fan .

Notably, the hair dryer includes a conduit disposed within the extension of the circulation chamber at the discharge area location. Thus, the circulation chamber and the conduit are disposed along the same longitudinal axis. In addition, the conduit has an upstream end, a downstream end, and a neck disposed between the upstream and downstream ends. More specifically, the neck corresponds to the inner periphery of the portion where the cross-section of the conduit is minimum. The first portion of the conduit disposed between the upstream end and the neck forms a downward angle of 40 [deg.] To 88 [deg.] With respect to the longitudinal axis of the circulation chamber. Thus, the first portion has a cross-section of the conduit that is continuously reduced from the upstream end to the neck. The downward angle corresponds to the maximum angle adopted by the first portion of the conduit with respect to the longitudinal axis. The second portion of the conduit disposed between the neck and the downstream end forms a reopening angle of 1.5 to 3.5 with respect to said longitudinal axis. The second portion thus has a cross-section of the conduit that extends continuously from the neck to the downstream portion. The cross section of the conduit is reduced and then expanded so that a coanda effect occurs at the neck location. The neck connecting the first and second portions of the conduit has a curved shape configured to facilitate the generation of the Coanda effect, and is preferably circular.

The Coanda effect generated at the neck location causes acceleration of the air exiting the conduit. Furthermore, the resumption angle allows the cross-sectional area of the conduit to increase within the second portion located between the downstream end and the neck, which causes an increase in the air flow rate exiting the conduit. Applicants have found that by implementing the above described geometric parameters of the conduit, i. E. By selecting a falling angle and a resuming angle within the range of values disclosed above, the conduit is designed to optimize the flow rate of the air to be accelerated and discharged . Thus, the power system of the air circulation system operates at a lower rotational speed than the power of conventional hair dryers, while reducing the power and size of the air circulation system to provide the same or even better drying performance and feel to the hair . This advantageously makes it possible to improve the acoustic performance of the hair dryer.

In a preferred embodiment of the hair dryer according to the invention, the angle of descent is 82 DEG. Likewise, the resumption angle is preferably 2.5 [deg.]. It is possible to optimize the result by selecting one and / or other value of the disclosed variables.

In a preferred embodiment of the hair dryer according to the invention, the conduit has a circular cross section. However, without departing from the scope of the present invention, a conduit having a rectangular or triangular shape, as well as other types of cross-sections, may be considered.

In a preferred embodiment of the hair dryer in which the conduit has a circular cross section, the neck has a diameter reduced by 2 mm to 4 mm compared to the downstream end. Preferably, the reduction in diameter is 2 mm.

In one embodiment of the hair dryer according to the invention, the heating element is spaced a distance of 0 mm to 5 mm from the neck of the conduit. The coanda effect is greatly reduced when the heating element enters the converging region of the neck of the conduit with a separation distance of zero. Conversely, if the separation distance is greater than 5 mm, no difference in Coanda effect is noted. In a preferred embodiment, the distance is 4 mm, which allows to optimize the Coanda effect.

In one embodiment of the hair dryer according to the invention, a lattice network is arranged between the heating element and the conduit. The presence of such grid networks aims to prevent any direct contact between the fingers injected through the conduit and the heating element.

In one embodiment of the hair dryer according to the invention, a detachable connecting means is arranged between the circulation chamber and the conduit so that the conduit having, for example, a circular cross-section can be connected to a similar conduit of a different scale, or to another conduit having a rectangular or triangular cross- To replace the conduit, the conduit can be removed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description of a preferred embodiment makes it possible to uncover the object of the present invention with reference to the accompanying drawings.

1 is a cross-sectional view of a hair dryer according to the present invention.
2 is an enlarged cross-sectional view of a downstream portion of the hair dryer shown in Fig.
3 is a cross-sectional view showing only a conduit.

As shown in Figure 1, the hair dryer 1 comprises a body 2 having a shape somewhat in the form of a cylinder, which makes it possible to constitute a circulation chamber 3 having a longitudinal axis X. [ The circulation chamber (3) includes an inlet region (4) and an outlet region (5). A circulation system 6 is arranged in the circulation chamber 3 and the circulation system 6 sucks the ambient air through the inlet region and then the air can flow over the entire length of the circulation chamber 3 And thereafter blows the air through the discharge area 5 to the outside of the hair dryer 1. [ The circulation system 6 comprises a fan 7 arranged in the vicinity of the inflow zone 4, a motor 8 for enabling rotational drive of the fan 7, 7) that are connected in series to each other. The hair dryer 1 also includes a heating element 10 disposed downstream of the rectifier 9 which is connected to the downstream portion of the circulation chamber 3 before the air is discharged through the discharge region 5 So that the air can be heated. The hair dryer 1 also includes control means for the motor 8 and control means for controlling the rotational speed of the motor 8 and the heating temperature of the heating element 10 from the off position to the maximum output position, 10 (not shown). All of these characteristics are general characteristics of hair dryers and therefore are not described in detail herein below.

The present invention is particularly directed to the conduit 11 shown in Figures 1-3. The conduit 11 is arranged in the extension of the discharge region 5 of the circulation chamber 3 along the longitudinal axis X, as shown in Figs. The conduit 11 is preferably circular and includes an upstream end 12 and a downstream end 13. The cross section of the upstream end 12 of the conduit 11 corresponds to the end of the discharge region 5 of the circulation chamber 3. In addition, the conduit 11 includes a neck 14 defining the upstream portion 15 and the downstream portion 16 shown in FIG. 3 on the conduit 11 and has a rotationally symmetrical shape. The configuration of the conduit 11 as shown in Figures 1 to 3 allows the air exiting the circulation chamber 3 to lie under the Coanda effect, which is a known fluid dynamics phenomenon in itself. The air exiting the circulation chamber 3 is faced with a reduction in the cross-section of the passage due to the presence of the neck 14 at the position of the discharge region 5 and this leads to a downward angle? ) Of the air flow. Thus, the discharged air is compressed to the end face of the neck 14. Once through the neck, the vented air relaxes as the cross-section of the passageway increases to the downstream end 13 of the conduit 11. Therefore, the discharged air is relaxed and flows along an angle corresponding to the resuming angle [beta] of the downstream portion 16 shown in Fig. The downward angle alpha and the resume angle beta are defined with respect to the vertical axis X of FIG. The geometry of the conduit 11 allows the intake of air to be discharged towards the downstream end 13, which increases the velocity of the exhaust air. Furthermore, the geometry of the conduit 11 allows the flow rate of the exhaust air to be simultaneously increased.

The study carried out by the Applicant has shown that the choice of a downward angle a of the upstream section 15 and a resumption angle β of the downstream section 16 applied to increase the velocity and flow of air exiting the conduit 11 To show the importance of Applicant has found that a downward angle α of 40 ° to 88 °, preferably 82 ° and a resume angle β of 1.5 ° to 3.5 °, preferably 2.5 °, It was confirmed that such an increase in flow rate can be optimized.

The dimensions of the conduit 11 are variable and are partially adapted to the dimensions of the circulation chamber 3 wherein the passage cross-section of the upstream end 12 of the conduit 11 is connected to the discharge region 5 of the circulation chamber 3, And the downward angle alpha and the resume angle beta of the conduit 11 are selected within the range of the above described values. Applicants have found that by reducing the diameter D1 at the neck 14 position by 2 to 4 mm, preferably by 2 mm, compared to the diameter D2 at the downstream end 13 position, It is possible to further improve the air velocity. Preferably, the diameter D2 at the downstream end 13 of the conduit is selected to be between 30 mm and 40 mm, preferably 32 mm, which also contributes to blowing off the exhaust air at an optimum rate while preserving excellent flow rates do.

2, the downstream end 17 of the heating element 10 is spaced from the neck 14 of the conduit 11 at a distance d of 0 mm to 5 mm, which affects the desired Coanda effect . Preferably, the distance d is 4 mm in order to optimize the Coanda effect.

1 and 2, the hair dryer 1 includes a grille net 18 disposed in the circulation chamber 3 downstream of the heating element 10. The grille grille 18, as shown in FIG. The lattice network 18 prevents all contact with the heating element 10.

Other features and modifications may be considered without departing from the scope of the present invention.

1 to 3, the conduit 11 is circular. However, a square, rectangular, or triangular cross-section for the conduit 11 can be considered while preserving the downward angle [alpha] and the resume angle [beta] as specified for the embodiment of Figures 1-3.

1 to 3, the conduit 11 is permanently fixed to the circulation chamber 3. The downstream end 19 of the circulation chamber 3 and the upstream end 19 of the conduit 11 are connected to each other so as to be able to detach the conduit 11 in order to replace the conduit 11 with conduits of other configurations falling within the scope of the present invention. Such as an interlocking or snaps system, between the downstream end 19 and the upstream end 12, may be envisaged, for example.

Claims (12)

1. A hair dryer (1) comprising an air circulation chamber (3) having an inlet region (4) and an outlet region (5), an air circulation system (6), and a heating element The element is configured to draw the outside air through the inlet region and to flow the air from the upstream to the downstream through the heating element to flow in the circulation chamber, (1), wherein the circulation chamber
The hair dryer (1) comprises a conduit (11) disposed in the extension of the circulation chamber at the discharge region location,
Wherein the conduit has an upstream end (12), a downstream end (13), and a neck (14) disposed between the upstream end and the downstream end, the conduit being disposed between the upstream end and the neck, A first portion of the conduit (15) forming a downward angle ([alpha]) of 40 [deg.] To 88 [deg.] With respect to the neck and a resuming angle has a second portion (16) of said conduit which forms said second portion (β). The hair dryer (1) according to claim 1, wherein the downward angle (?) Is 82 °. 3. The hair dryer (1) according to claim 1 or 2, wherein the resuming angle (beta) is 2.5 DEG. 4. A hair dryer (1) according to any one of claims 1 to 3, wherein the conduit (11) has a circular cross-section. The hair dryer (1) according to claim 4, wherein the neck (14) has a diameter reduced by 2 mm to 4 mm as compared to the downstream end. The hair dryer (1) according to claim 5, wherein the reduction in diameter is 2 mm. 4. A hair dryer (1) according to any one of claims 1 to 3, wherein the conduit (11) has a rectangular cross-section. 4. A hair dryer (1) according to any one of claims 1 to 3, wherein the conduit (11) has a triangular cross-section. 9. A hair dryer (1) according to any one of the preceding claims, wherein the heating element (10) is spaced from the neck (14) of the conduit (11) by a distance (d) of 0 mm to 5 mm. The hair dryer (1) according to claim 9, wherein the distance (d) is 4 mm. 11. A hair dryer (1) according to any one of the preceding claims, wherein a grid (18) is arranged between the heating element (10) and the conduit (11). 12. A hair dryer (1) as claimed in any one of the preceding claims, wherein a detachable connecting means is arranged between the circulation chamber (3) and the conduit (11) to enable the detachment of the conduit.

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