RU2791195C1 - Hair dryer - Google Patents

Abstract

FIELD: hair dryer.

SUBSTANCE: hair dryer (1) includes a body (2) equipped with a handle (3) and a main unit (4), having a main through cavity (13), in which there is at least one rear intake hole (5) and a front outlet opening (6), at least one electric motor (20) and an impeller (21) enclosed in the main through cavity (13). The hair dryer also includes an external outlet (30), which can be connected by a detachable connection to the front outlet (6) of the specified main unit (4), including the blown tubular part (31) of the air flow (F) and the connecting a tubular part (32) intended to be inserted into said front outlet (6) and long enough to cover at least one side hole (7) to prevent air from entering said main through cavity (13) due to the entrainment process and so that the speed of the outgoing air flow from the blown tubular part (31) would be not less than the initial speed of the air flow (Q1) generated by said impeller (21).

EFFECT: invention offers an easy-to-handle, lightweight hair dryer with a strong airflow.

13 cl, 6 dwg

Description

The present invention relates to hair dryer devices, in particular to portable hair dryers having an internal air diffuser.

Known and widely used portable hair dryers on the market for professional and home use are electrical devices having a body, usually made of plastic, having a handle and a hollow block forming a through duct. In the most common embodiment, an electric motor, a centrifugal or axial impeller that is connected to and rotated by the electric motor, and one or more electrical heating elements, in particular resistors or electrical resistances, for heating the air are located inside the body of the hair dryer, more precisely speaking, in a hollow block forming an air duct.

During the use of the hair dryer, that is, when the electric motor and the electric resistances are energized, the impeller is rotated by the electric motor and creates a flow of air inside the air duct, sucked into the back of the hair dryer through the air inlet, flowing to the front of the hair dryer and exiting front opening or outlet. The air flow passes through electrical heating resistors, which, when passing an electric current, generate heat due to the Joule effect, so it heats up and exits the outlet.

The electric motor of the hair dryer is usually a collector type motor and includes a stator fixed to the housing and having a stator winding to which a single-phase direct or alternating current is supplied, a rotor having a rotor winding, or armatures, and placed inside the stator with the possibility of rotation coaxially with him, and a switch or switch mounted on the rotor and connected with a pair of brushes to supply the rotor winding with a single-phase direct or alternating electric current during rotation of the rotor to create the magnetic fields necessary for the operation of the motor. The rotor and stator are made of ferromagnetic material, and their size is larger, the more power is needed to operate the impeller to create an air flow suitable to dry the hair in a fairly short period of time.

Since the body and impeller made of plastic and the resistive wires forming electrical resistances are reduced in weight, it is clear that the overall weight of the hair dryer is mainly due to the weight of the electric motor.

It is known that prolonged use of a powerful but cumbersome hair dryer, especially by hairdressers who hold their upper limbs elevated and perform cyclical repetitive movements for a long time, can lead to painful consequences for the muscles or ligaments of the hand-wrist-elbow system. -shoulder, in some cases with the risk of inflammatory diseases or osteoarticular pain that becomes chronic.

Indeed, medical studies have shown that almost 40% of hairdressers suffer from diseases of the musculoskeletal system, in particular those associated with posture or biomechanical overload of the upper limbs.

In order to reduce the incidence of musculoskeletal disorders among hairdressers, in addition to measures such as maintaining correct posture during work and alternating work tasks with more or less functional load, the use of easy-to-handle and lightweight hair dryers that put little or no load on the brush system - wrist-elbow-shoulder, is of fundamental importance.

Therefore, the trend in the art is to significantly reduce the overall size and weight of hair dryers, however, without reducing the power at which the impeller operates and creating a satisfactory amount or flow of air, in other words, without increasing the time required to dry the hair.

The purpose of the present invention is to provide a hair dryer that overcomes the disadvantages of known hair dryers.

Another goal is to offer an easy to handle and lightweight hair dryer that can be used for long periods of time with little or no stress on the muscles and ligaments of the hand-wrist-elbow-shoulder system.

Another goal is to offer a powerful hair dryer capable of delivering strong airflow to dry hair in a reasonably short time.

Another goal is to offer a hair dryer that allows you to precisely and in a wide range of adjustments to change the air flow for drying hair according to different needs.

These and other goals are achieved using a hair dryer in accordance with paragraph 1 of the claims.

The invention will be better understood and practiced with reference to the accompanying drawings, which by way of example illustrate, but do not limit, an embodiment wherein:

- in Fig. 1 is a side view of a hair dryer according to the invention;

- in Fig. 2 is a rear view of the hair dryer shown in FIG. 1;

- in Fig. 3 is a longitudinal section through a three-dimensional view of the hair dryer shown in FIG. 1;

- in Fig. 4 is a section along the line IV-IV shown in FIG. 2;

- in Fig. 5 is a three-dimensional view of the hair dryer shown in FIG. 1 equipped with an external air nozzle in the assembled state;

- in Fig. 6 is a longitudinal section through a three-dimensional view of the hair dryer shown in FIG. 5.

With reference to FIG. 1-4 show a hair dryer 1 according to the present invention, which includes a body 2 equipped with a handle 3 and a main unit 4, having a main through cavity 13, in which there are one or more rear intake holes 5 and a front outlet 6 for inlet and air outlet, respectively. The main block 4, for example, has a generally cylindrical shape, the same as the main through cavity 13 therein, and is located along the longitudinal axis X.

The main block 4 is configured to include the aforementioned main through cavity 13, the electric motor 20, and the impeller 21 driven by the electric motor 20 to generate an air flow F of a predetermined speed inside the main through cavity 13, in particular parallel to the longitudinal axis X .

Inside the main unit 4 there are also heating elements 22, located after the electric motor 20 and the impeller 21 in the direction of the air flow F. The heating elements 22 are made in the form of resistive wire elements designed to generate heat when an electric current flows through them. The electric motor 20, the impeller 21 and the heating elements 22 are components of a known type and therefore will not be described in detail.

The air, after being sucked by the impeller 21 through the rear intake holes 5, flows through the main through cavity 13 and is discharged from the housing 2 through the heating elements 22 and the front outlet 6.

The hair dryer 1 also includes an internal diffuser 15 mounted inside the main through cavity 13 and on the front outlet 6 and equipped with a corresponding through cavity 14 having a flow area (located across, i.e., orthogonal to the longitudinal axis X), tapering towards the front outlet 6 to increase the air flow velocity F due to the well-known Venturi effect.

The main unit 4 at the front outlet 6 also includes one or more side holes 7 through which air can be sucked in from the outside of the housing 2 into the main through cavity 13 due to the Venturi effect, in particular due to the entrainment process created by the air flow F exiting from of the inner diffuser 15 at a high speed, so that the speed of the outgoing air flow Q2 exiting the outlet 6 is increased, as will be described later.

In this way, the speed of the outgoing air flow Q2 can be increased by 50%-100% compared to the initial speed of the air flow Q1 generated by the impeller 21.

Referring in particular to FIG. 3 and 4, the inner diffuser 15 includes an inner tubular part 17, in particular of nearly cylindrical shape, provided with an inlet 17a having a first flow area for the air flow F coming in and out of the impeller 21, and an outer tubular part 18 having at least one outlet 16 for the air flow F going outside, having a second cross section, the latter has an area equal to 30%-50% of the area of the first cross section. More specifically, the through cavity 14 of the inner diffuser 15 is formed by a corresponding cavity of the inner tubular portion 17 and a corresponding cavity of the outer tubular portion 18.

In the illustrated embodiment, the heating elements 22 are located in the through cavity 14 of the inner diffuser 15, in particular in the inner tubular part 17. In accordance with another option, they can be fixed outside the inner diffuser, the latter has a shorter inner tubular part 17.

In the illustrated embodiment, the outer tubular portion 18 of the inner diffuser 15 includes a plurality of outlets 16 arranged at angles around the longitudinal axis X of the main unit 4, the cross-flow sections of the outlets 16 have a total area equal to the area of the second cross-flow section, which is less than the first cross section for air inlet F.

More specifically, the outer tubular portion 18 of the inner diffuser 15 includes a plurality of exhaust ducts 26 (the inner cavities of the outlet ducts form a corresponding inner cavity of the outer tubular portion 18), each of which is provided with a respective outlet 16. The outlet ducts 26 are arranged radially around the longitudinal axis X and are shaped such that two adjacent outlets 26 are separated by a respective recess 19, the latter in particular converging towards a front outlet 6.

In order to provide a satisfactory airflow rate inside the main unit 4 at the front outlet 6, said main unit 4 in the illustrated embodiment includes a plurality of through hole-shaped side holes 7 made in several parallel rows around the circumference in the side wall of the front part 4a of the main block 4, the front part 4a includes said front outlet 6.

Similarly, in order to ensure satisfactory air intake by the impeller 21, the main unit 4 includes a plurality of rear intake holes 5 provided on the corresponding back portion 4b of said main unit 4. More specifically, the rear intake ports 5 include a plurality of holes provided on the side wall and on the rear wall of the main unit 4 in the corresponding rear portion 4b.

Inside the main unit 4, a micro-perforated filter element 9 is provided at the rear part 4b to filter the air entering through the rear intake ports 5 and retain foreign bodies, dust, particles and dirt that can contaminate and clog the impeller 21, the motor 20 and the heating elements 22.

The hair dryer 1 also includes controls 25 of a known type, not shown in the figure and not described in detail, which can control the rotation speed of the electric motor 20, and hence the impeller 21, in order to regulate the speed of the air flow F inside the main through cavity 13 in front of the internal diffuser. 15.

As shown in FIG. 5 and 6, the hair dryer 1 of the present invention also includes an external outlet 30 which can be releasably attached to the front outlet 6 of the main unit 4 in assembly configuration A.

The outer outlet 30 comprises an air flow blown tube 31 F and a connection tube 32, in particular cylindrical in shape, adapted to be inserted, in particular with little force, into the front outlet 6. The connection tube 32 has a length such that it covers the side through holes 7 to prevent air from entering the main through cavity 13 due to the air entrainment process, and the outgoing air flow rate Q2 at the front outlet 6 was mainly equal to the initial air flow rate Q1 generated by the impeller 21. At the same time time, when the through side holes 7 are closed, the pressure of the air leaving the inner diffuser 15 is not discharged.

In the embodiments shown in FIG. 5 and 6, the outer outlet 30 comprises a tip of a known type having a blown tube 31 of various shapes and sizes, and an inner part that decreases and converges to the corresponding blow hole 31a so as to increase the blowing speed of the air, in this case the speed of the air flow. , created by the impeller 21, remains constant. For example, the blow hole 31a has an elongated rectangular shape.

The cross section or area of the blow hole 31a of the blow tube 31 is, for example, substantially equal to the area of the second cross section of the inner diffuser 15, i.e. the total area of the outlet openings 16 of the outlet ducts 26.

The blow hole 31a may have a shape other than rectangular and an area less than or greater than the total area of the outlet holes 16 of the outlet ducts 26.

For example, the external outlet may include a diffuser having a blown tubular portion 31 of various shapes and cross sections that expands and diverges to one or more blow holes having a total area greater than the total area of the outlet holes 16 of the outlet ducts 26, thus to reduce the speed of the outgoing airflow.

When the hair dryer 1 according to the present invention is operated, the air drawn in by the impeller 21 through the rear intake holes 5 and supplied through the main through cavity 13 reaches the internal diffuser 15, which has a corresponding through cavity 14 with a flow area decreasing towards the front outlet 6 to increase airflow velocity F due to the well-known Venturi effect.

As a consequence, through a plurality of side holes 7 made in the side wall of the front part 4a of the main unit 4, air is sucked in from the outside of the hair dryer 1 into the main through cavity 3 due to the well-known Venturi effect and in particular due to the air entrainment process created by the air flow F coming out of the internal diffuser 15 at high speed, and the subsequent local decrease in pressure at the outlet of the internal diffuser 15 (according to Bernoulli's theorem). Therefore, the additional flow rate of the air sucked in and entrained through the side openings 7 is added to the initial air flow rate Q1 generated by the impeller 21 in order to significantly increase the speed of the outgoing air flow Q2 exiting the front outlet 6.

The suction or entrainment of air through the side openings 7 is also facilitated by the shape of the outer tubular portion 18 of the internal diffuser 15, which comprises a plurality of outlet ducts 26 separated from each other by respective recesses 19 shaped to converge towards the front outlet 6. Said converging recesses 19 , in addition to facilitating the intake of air through the side holes 7, allow air to be supplied with a radial concentric movement inside the main through cavity 3 parallel to the longitudinal axis X. The flow rate Q2 of the hair dryer according to this invention can be increased by 50%-100% compared to the initial airflow rate Q1 generated by the impeller 21.

Thanks to the hair dryer 1 according to the present invention, equipped with an internal diffuser 15 and side openings 7, which uses the known Venturi effect and the air entrainment process, it is possible to significantly increase the speed of the output air flow without the need to increase the power, that is, the size and weight of the electric motor 20. Thus By having a hair dryer that provides a high flow rate, for example between 60 and 110 m ³ /h, to dry hair in a fairly short time, it is possible to have a compact, easy-to-handle household appliance of low weight and size that can be used for a long period time, creating a small or negligible load on the muscles and ligaments of the hand-wrist-elbow-shoulder system.

The use of an external exhaust element 30 designed to suppress the Venturi effect and the air entrainment process by closing off the side openings 7 also makes it possible to reduce the outgoing air flow rate Q2 of the hair dryer 1 according to this invention, which becomes essentially equal to the initial air flow Q1 generated by the impeller 21, whose speed (and hence its airflow rate) can be precisely controlled by means of controls 25 which allow the rotational speed of the electric motor 20 to be controlled.

The hair dryer 1 of the present invention thus allows precise and over a wide adjustment range to vary the speed of the hair drying airflow according to different and specific needs, including with or without the use of an external outlet 30.

Claims (17)

1. Hair dryer (1) including - a housing (2) equipped with a handle (3) and a main block (4), having a main through cavity (13), in which there is at least one rear intake hole (5) and a front outlet hole (6); - at least one electric motor (20) and an impeller (21) enclosed in the main through cavity (13), the impeller (21) is driven by an electric motor (20) to create an air flow (F) of a given speed (Q1) inside the main through cavity (13); - an internal diffuser (15) installed inside the main through cavity (13) on the front outlet (6) and equipped with a corresponding through cavity (14) having a flow area tapering towards the front outlet (6) to increase the speed (Q1) of the air flow (F), the main block (4), containing at least one side hole (7) on the front outlet (6), through which air can enter the main through cavity (13) from the outside due to the entrainment effect created by the air flow ( F) exiting the internal diffuser (15), so that the air flow rate (Q2) leaving the outlet (6) is increased compared to the initial air flow rate (Q1) generated by the impeller (21), characterized in that it includes an external outlet element (30), which can be attached by means of a detachable connection to the front outlet (6) of the specified main unit (4) in the assembly configuration (A), and includes a blown tubular part (31) air flow (F) and a connecting tubular part (32) designed to be inserted into the specified front outlet (6) and long enough to close at least one side hole (7) to prevent air from entering into said main through cavity (13) due to the entrainment process, and the speed of the outgoing air flow from the blown tubular part (31) was not less than the initial air flow speed (Q1) generated by said impeller (21). 2. Hair dryer (1) according to claim 1, characterized in that the internal diffuser (15) includes an internal tubular part (17) provided with an inlet (17a) having a first flow area for said incoming air flow (F ), and an outer tubular part (18) having at least one outlet (16) with a second cross section for said air flow (F) going outside, said second cross section having an area equal to 30-50% of the area the specified first cross section. 3. Hair dryer according to claim 2, characterized in that said outer tubular part (18) of said inner diffuser (15) includes a plurality of outlets (16) located at an angle around the longitudinal axis (X) of said main unit ( 4), the cross sections of each outlet (16) have a total area equal to the area of the specified second cross section. 4. Hair dryer (1) according to claim 3, characterized in that said outer tubular part (18) of said inner diffuser (15) contains a plurality of outlet ducts (26) equipped with corresponding outlets (16) and arranged radially around said longitudinal axis (X), two adjacent outlet ducts (26) are separated by a corresponding recess (19), in particular converging towards said front outlet (6). 5. Hair dryer (1) according to any one of the preceding claims, characterized in that said main unit (4) includes a plurality of side holes (7) made in the side wall of the front part (4a) of said main unit (4). 6. Hair dryer (1) according to any one of the preceding claims, characterized in that said blown tubular part (31) of said outer outlet (30) has an internal section tapering and converging towards the corresponding blowing hole (31a). 7. Hair dryer (1) for hair according to any one of paragraphs. 1-5, characterized in that said blown tubular part (31) of said outer outlet element (30) has an internal section expanding and diverging towards at least one corresponding blow hole. 8. Hair dryer (1) according to any one of the preceding claims, characterized in that said main unit (4) includes a plurality of rear intake holes (5) made in the corresponding rear part (4b) of said main unit (4). 9. Hair dryer (1) according to any one of the preceding claims, characterized in that said main unit (4) has a cylindrical shape and is located along the longitudinal axis (X). 10. Hair dryer (1) according to any one of the preceding claims, comprising heating elements (22), in particular, made in the form of resistive wire elements, designed to generate heat when an electric current flows through them. 11. Hair dryer (1) according to claim 10, characterized in that said heating elements (22) are located inside the main unit (4) after said electric motor (20) and said impeller (21) in the direction of air flow (F) . 12. Hair dryer (1) according to claim 10, when added to claim 3, characterized in that said heating elements (22) are located in said inner tubular part (17) of said inner diffuser (15). 13. Hair dryer (1) according to any of the previous paragraphs, containing controls (25) for controlling at least one rotation speed of said electric motor (20) and adjusting the speed of said air flow (F) inside the main through cavity ( 13) in front of the internal diffuser (15).

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