ES1075701U - Electric hair dryer (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Electric hair dryer, of the type comprising: A casing (10) having at least one intake opening (13) and at least one ejection opening (14); A turbine (20) located inside said casing (10) and which sucks air through said intake opening (13) and expels it through said ejection opening (14); A brushless electric motor (35) located inside the housing (10) downstream of said turbine (20) and which drives the turbine (20); y A heating resistor (30) located inside the housing (10) downstream of said electric motor, Wherein a flow of air driven by the turbine (20) flows through an annular passage (17) defined by the housing (10) around the brushless electric motor (35) and said heating resistor (30), Characterized in that one or more supply resistors (37) of a supply circuit of said brushless electric motor (35) are located in said annular passage (17) and exposed to the flow of air flowing therethrough in order to dissipate hot. (Machine-translation by Google Translate, not legally binding)

Description

Electric hair dryer

Technical field

The present invention generally concerns a electric hair dryer, and more particularly to a hair dryer portable electric equipped with a motor driven turbine Brushless electric and cooling device electric motor power components.

Background of the invention

Hair dryers are known which comprise a housing that forms an air tunnel with at least one opening of admission at an inlet end and an ejection opening in a outlet end, a centrifugal turbine located in the tunnel of air, an electric motor to spin the turbine located downstream of the turbine, and a heating resistor located downstream of the engine. In general, the housing has a handle on which houses a power circuit of the electric motor and various motor and resistance control knobs Heater

WO 2008/064075 describes a dryer of hair of the type described above where the electric motor is a brushless motor and where a deflector redirects driven air by the turbine to the engine to maintain a temperature of proper functioning However, the power circuit of the motor, which is housed in the housing handle, can carry components such as electrical resistors, which are susceptible to warming with operation, and to which it does not reach the flow of air driven by the turbine so the Heat generated cannot be dissipated effectively.

JP 2000342325 also describes a hair dryer with a turbine driven by an electric motor without brushes

Exhibition of the invention

The present invention contributes to mitigate the previous and other inconveniences providing a hair dryer electrical comprising a housing having at least one opening of admission and at least one ejection opening, a turbine located inside said housing and that draws air through said housing intake opening and ejects it through said opening of ejection, a brushless electric motor located within the housing downstream of said turbine and operatively connected to drive the turbine, and a heating resistor located inside the housing downstream of said electric motor. A air flow driven by the turbine flows through a passage annular defined by the housing around the electric motor without brushes and of said heating resistance. Electric motor Brushless is powered by a power circuit that has one or more power resistors located in said annular passage, and exposed to the flow of air flowing through the same.

The aforementioned power resistors are installed on a printed circuit board supported on a motor support fixed to the housing and that supports the brushless electric motor, so that said printed circuit board and the power resistors are adjacent to the electric motor Brushless Since the heating resistor is located inside the housing downstream of the electric motor, the air driven by the turbine impacts the supply resistors before being heated by the heating resistor and the heat generated by the supply resistors is dissipated in the air flow, which cools the feed resistors while contributing to heat the flow of air that is expelled through the opening of
expulsion.

The housing has a handle on which they are housed other electrical and electronic components, as well as some controls available to the user for electric motor control Brushless and heating resistance. In one embodiment, These controls include a cold air button, which when pulsed inhibits the operation of the heating resistor and leaves only the brushless electric motor that drives the turbine, an engine speed selector, which controls the Brushless electric motor speed, and a selector heat power, which controls the resistance power Heater

In one embodiment, the electric motor without brushes have a fixed external stator in relation to the housing and an internal rotating rotor with respect to the external stator.

In one embodiment, the turbine comprises a motherboard fixed to a motor shaft and a plurality of blades that are extend axially from an upstream side of said base plate, and the turbine base plate has an outline perimeter shaped star that defines several points and several air passages between said tips. Thus, the air driven by turbine blades flows radially and also axially through of the aforementioned air passages arranged between the tips of the motherboard, which reduces pressure losses, increases the turbine efficiency and allows a reduced annular passage between the turbine and the inner surface of the housing.

Brief description of the drawings

The above and other features and advantages will be more fully understood from the following detailed description of an exemplary embodiment with reference to the attached drawings, in which:

Fig. 1 is a sectional side view of a portable electric hair dryer according to an embodiment of the present invention;

Fig. 2 is a cross-sectional view. taken by plane II-II of Fig. 1 and in the direction of the arrows;

Fig. 3 is a cross-sectional view. taken by plane III-III of Fig. 1 and in the direction of the arrows;

Fig. 4 is a view of a current side below a turbine of the hair dryer of Fig. 1;

Fig. 5 is a cross-sectional view. taken by a middle plane of the turbine of Fig. 4; Y

Fig. 6 is a side view of the turbine with an air flow indicated by dashed arrows.

Detailed description of an embodiment example

Referring firstly to Figs. 1, 2 and 3, the portable electric hair dryer according to a embodiment of the present invention comprises a housing 10 which it has an intake opening 13 located at an inlet end 11 and an ejection opening 14 located at an outlet end 12, defining an air tunnel between said inlet ends and exit 11, 12. Inside said housing 10 there is a turbine 20 driven by a brushless electric motor 35 located current below the turbine 20 and a heating resistor 30 located downstream of the brushless electric motor 35. The motor brushless electric 35 has an external stator 41 fixed on relationship with the housing 10 and an internal rotor 42 rotating with respect to to external stator 41.

Between an inner surface of the housing 10 and turbine 20, brushless electric motor 35 and resistance heater 30 is formed an annular passage 17. Turbine 20 sucks air through the intake opening 13, makes it pass to through said annular passage 17 around the electric motor without brushes 35 and of the heating resistor 30 and expels it to through the ejection opening 14. Preferably, in the inlet end 11 of the housing 10 there is a filter 16 in which a plurality of said intake openings are formed 13.

The brushless electric motor 35 is supported on a motor support 39 fixed internally to the housing 10. The motor support 39 also supports a plate of printed circuit 38 (Fig. 2) in which a circuit is installed power that feeds the brushless electric motor 35. This power circuit includes several power resistors 37, which, by virtue of a particular position of the plate printed circuit 38, are located in said annular passage 17 and exposed to the flow of air flowing through it driven by the turbine 20. The supply resistors 37 are located upstream of the heating resistor 30, so that the heat generated by the supply resistors 37 is dissipated in the flow of fresh air driven by the turbine 20.

The housing 10 includes a handle 15 configured to be grabbed manually, which allows the tunnel to be oriented air and direct the flow of air coming out of the opening of expulsion 14 towards the hair to dry. Inside the handle 15 are housed several electrical and / or electronic components installed, for example, on a printed circuit board 40. On sites accessible from the handle 15 are a cold air button 31, which when pressed inhibits resistance operation heater 30, a motor speed selector 32, which controls the speed of the brushless electric motor 35, and a heat power selector 33, which controls the power of heating resistance 30. The hair dryer feed it is carried out by means of an electrical connection cable 34 that passes to through the lower end of the handle 15.

As best shown in Figs. 4, 5 and 6, the turbine 20 comprises a hub 29 with an axial hole 24 configured to be coupled to a drive shaft 36 of the electric motor 35, a base plate 22 fixed to said hub 29, and a plurality of blades 23 which is extend axially from an upstream side of said base plate 22 towards the intake opening 13 located at the inlet end 11. The blades 23 have an inner end spaced apart from the hub
29.

Referring specifically to Fig. 4, the base plate 22 of the turbine 20 has a perimeter contour in star shape that defines several tips 25 and several air passages 26 between said tips 25. Each of the tips 25 has a first edge 27 that follows the slightly curved contour of a part exterior of one of the blades 23 and a second edge 28 approximately rectilinear extending from the outer end from one of the blades 23 to a middle region 21 of another blade 23 adjacent. In the context of this description, the term "region media "aims to cover a wide region between the extremes inside and outside of blades 23 and not the geometric center of each blade 23. In Fig. 3 an imaginary circle has been represented C within which the peripheral contour of the turbine is inscribed twenty.

In the illustrated embodiment, the motherboard 22 of turbine 20 has a conical shape, with a nearby central region to the axis of rotation located more upstream than a region perimeter where the tips are 25. In other words, the motherboard is tilted to the downstream side of the turbine 20 from said central region near the axis of rotation up to the perimeter region in relation to an imaginary plane perpendicular to the axis of rotation.

The blades 23 are generally curved in one radial direction of the turbine, and more particularly, are curved with respect to a radial line that passes approximately along an axis of turbine rotation 20. In other words, an extension imaginary of the blades 23 towards the inside of the turbine 20 passes about the axis of rotation of the turbine 20. No However, the blades 23 are substantially parallel to the axis of rotation of the turbine 20 in the axial direction, and are arranged so that between each two adjacent blades 23 there is a distance in the circumferential direction that gradually widens from the inner region near the axis of rotation of the turbine 20 until the perimeter region where the tips 25 are located.

As shown in Fig. 6, the air passages 26 provided between the tips 25 of the base plate 22 of the turbine 20 facilitate the passage of air flow A (indicated by arrows discontinuous) in an axial direction and therefore improve the turbine efficiency

A person skilled in the art will come up with modifications and variations from the embodiment example shown and described without departing from the scope of the present invention as defined in the appended claims.

Claims (12)

1. Electric hair dryer, of the type that understands: a housing (10) having at least one opening of admission (13) and at least one ejection opening (14); a turbine (20) located inside said housing (10) and that breathes air through said intake opening (13) and ejects it through said ejection opening (14); a brushless electric motor (35) located inside the housing (10) downstream of said turbine (20) and that drives the turbine (20); Y a heating resistor (30) located inside of the housing (10) downstream of said electric motor, where a turbine driven air flow (20) flows through an annular passage (17) defined by the housing (10) around the brushless electric motor (35) and of said heating resistance (30), characterized in that one or more supply resistors (37) of a power circuit of said brushless electric motor (35) are located in said annular passage (17) and exposed to the flow of air flowing through it in order to dissipate hot.

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Hair dryer according to claim 1, characterized in that said power resistors (37) are installed on a printed circuit board (38) supported on a motor support (39) fixed to the housing (10) and supported the brushless electric motor (35). 3. Hair dryer according to claim 2, characterized in that the housing (10) has a handle (15) in which controls (31, 32, 33) for controlling the brushless electric motor (35) and of the heating resistance (30). Hair dryer according to claim 3, characterized in that said controls (31, 32, 33) include a cold air button (31) which, when pressed, inhibits the operation of the heating resistor (30), a speed selector of the motor (32) that controls the speed of the brushless electric motor (35), and a heat power selector (33) that controls the power of the heating resistor (30). 5. Hair dryer according to claim 2, characterized in that the turbine (20) comprises a base plate (22) fixed to a motor shaft (36) and a plurality of blades (23) extending axially from a current side above said base plate (22), where the base plate (22) of the turbine (20) has a star-shaped perimeter contour defining several points (25) and several air passages (26) between said points (25 ). Hair dryer according to claim 5, characterized in that each of the tips (25) has a first edge (27) that follows the contour of part of one of the blades (23) and a second edge (28) that it extends from the outer end of one of the blades (23) to a middle region of another adjacent blade (23). Hair dryer according to claim 5 or 6, characterized in that said base plate (22) of the turbine (20) has a conical or approximately conical shape, with a central region located more upstream than a perimetric region. 8. Hair dryer according to claim 5, 6 or 7, characterized in that the blades (23) are curved in a radial direction. 9. Hair dryer according to claim 8, characterized in that the blades (23) are curved with respect to a radial line that passes approximately by a rotation axis of the turbine (20). 10. Hair dryer according to any one of the preceding claims, characterized in that the blades (23) are substantially parallel to an axis of rotation of the turbine (20). Hair dryer according to any one of the preceding claims, characterized in that a distance between each two adjacent blades (23) gradually widens from an inner region close to the axis of rotation of the turbine (20) to a perimeter region. 12. Hair dryer according to any one of the preceding claims, characterized in that the turbine (20) has a hub (29) attached to the base plate (22) and coupled to the motor shaft (36), and the blades (23) have an inner end distanced from said hub (29).