HAIR DRYER WITH SWINGING ARMS HEAT SOURCES
O 4 O
BACKGROUND OF THE INVENTION
- Technical field The present invention concerns an apparatus for drying hair by means of heat sources moving around the hair.
- Prior art information
The field of professional hair dryer devices shows, as known, a continuous growing, seeking for more and more effective solutions which could offer more freedom of action to the operator even during the treatment and, at the same time, more comfort to the
person under treatment .
For this purpose, devices using several heat sources positioned around the hair have been made, and, in particular, also by the applicant, devices in which heat sources move around the hair in order to improve the comfort, avoiding located heat concentrations, have been proposed, patented and commercialized. For example, italian patent n. 1217092 discloses a device in which three heat generators, uniformly spaced on an ideal circumference, are rotating around the axis of said circumference by means of a
rotating supporting element which is connected to an
arm continuously oscillating between two positions that are simmetrical with respect to the vertical
median plane of the device. The heat flow emitted by said heat generators affects the whole hair in a regular and distributed way.
European patent 0 317 902 discloses an apparatus in which a circular, or semicircular, radiating element, eccentrically connected to supporting means, is kept continuously rotating in the space above and behind the hair to be dried.
Also in this case the heat flow emitted by the radiating element affects the whole hair. However, it has to be noticed that, using this solution, the distribution of the emitted heat is not very effective, in fact the time trend of said distribution is strongly cyclic with respect to the various portions of the hair.
The former solution, indeed, overcomes such an handicap but at the cost of both a certain complexity of the apparatus, clearly displayed in the specifications, and considerable overall dimensions,
which could be a drawback in the specific work room. SUMMARY OF THE INVENTION
Accordingly, it is the first object of the present invention to provide an apparatus allowing an
effective hair drying action and having, at the same time, a structural configuration highly rationalised and simplified, with small overall dimensions and low costs for mass production.
A further object of the invention is to provide an hair dryer apparatus with high operative flexibility, in order to accomplish, in a simply and immediate way, the various requirements of the operators in the specific technical field.
The above-mentioned objects are achieved by means of an hair dryer apparatus wherein two radiating arms, shaped to surround the upper part and the back part of the hair, are pivoted, at one of their respective ends, into two points, next to each other, of a main supporting structure which comprises means for rotating said arms in two half-spaces opposite with respect to the median vertical plane of the apparatus according to oscillatory movements of such an extent to allow the emitted heat flow to affect the superior, the back part and side parts of the hair.
Said supporting main structure comprises also means
for generating air under pressure that is directed to
the radiating arms in order to maintain the heat flow emitted towards the hair.
Furthermore, said main structure comprises separated means for rotating said two radiating arms, said
means being controlled, separately or jointly, by a specific electronic controller unit of the apparatus. The advantages of the above hair-dryer apparatus are clearly evident by considering the high functionality and, also, the structural simplicity of the proposed solution, simplicity from which low manufacturing costs and low overall dimensions descend. At the same time, the typical advantages of the solutions comprising heat sources moving around the
hair, such as uniform heat distribution and good comfort of the treatment are made safe. As regards, in particular, the heat distribution, through the proposed solution we can obtain, with respect to the known solutions, an indubitable advantage due to the fact that high uniformity and invariability of the heat distribution in the whole interested space is achieved by small extent heat sources movements .
From the above, it descends immediately that further relevant advantages concern the operational
flexibility of the hair-dryer apparatus according to the present invention. BRIEF DESCRIPTION OF THE DRAWINGS
However, for a better understanding of the above- mentioned advantages and the characteristics of the present invention, this will now be described by way
of an embodiment example, with reference to the accompanying drawings, in which:
- Figure 1 is a perspective view of a hair-dryer apparatus according to the invention;
- Figure 2 is a front view of the apparatus of Figure
1;
- Figure 3 is a lateral section view of the apparatus of Figure 1, obtained through the section line III- III of Figure 2;
- Figure 4 is a further perspective view of the apparatus of Figure 1;
- Figure 5 is a vertical section view of a specific component of the hair-dryer apparatus of the present invention;
- Figure 6 is an exploded view of the component of Figure 5;
- Figure 7 is an exploded total view of the apparatus
of the invention.
DESCRIPTION OF THE PREFERRED EMBODIMENT
Figure 1 shows a hair-dryer apparatus, 10, which comprises a supporting main structure, 11, to which two shaped arms, 12, 13, comprising heat generating
elements, 14, 15, are pivoted; said arms being
rotating into two half-spaces opposite with respect
to the vertical median plane of the apparatus, represented with line III-III of Figure 2. In this figure, as we can see, are shown in broken line the positions 12', 13', where the arms, 12, 13, move when they come at the top end of their alternated rotatory movement around their respective hinging axis, 16, 17. Said arms, indeed, are rotating by an angle of about 90° around said axis. Exactly, referring to view of Figure 2, arm 12 is
rotating in anticlockwise direction, while arm 13 is rotating in clockwise direction, and then they are carried back in the position of Figure 2 by means of just opposite rotations. This is repeated for a precisely settable number of cycles or working times. The means used to rotate said arms are clearly shown
in Figure 3 and Figure 7. In this embodiment they comprise two electric actuators, 18, 19, which just consists of alternating current induction motors.
Said actuators are fixed to a metal box-shaped structure, 37, internally bound to the main structure
11.
More precisely, as shown in Figure 3, a reduction gear, 20, associated to a motor, 18, is mechanically
connected to a transverse internal wall, 22, of the box-shaped structure 37, and the same about the reduction gear, 21, associated to other motor 19.
The outputs of reduction gears, 20, 21, are connected with pivot means 23, 24, which rotate and support the
arms 12 and 13, said pivots being suitably guided by means of bushes 25, 26, fixed to the box-shaped
structure, 37.
The top ends of' said pivots are exagonally shaped in order to transmit the rotatory movement to the radiating arms, 12, 13, by means of metal bushes, 27, 28, on which the pivots, 23, 24, are inserted. Each one of said bushes, as we can see in Figure 5, is incorporated in the plastic structure of the
respective arm and, exactly, it is placed in a central position of the circular base portion, 29, of said polyurethane structure, 31, whose shape, not just semicircular but studied as to optimise the heat
flow towards the hair, is clearly shown in fig. 6. In particular, it is shaped as a sequence of circle arcs having different radius and curve centres. Internally bound to said structure, 31, by screw means, 32, there is an element, 33, having the function of shielding from the heat generated by a
heater, 14, which is constituted, in this case, by an
electric quartz resistor.
In said shielding element, 33, there are openings, or slots, 65, uniformly distributed, useful for the passage of air flow which, as we will better see in the following, is transmitted from the main structure 11, to the arms, 12, 13; the air flow is suitably directed towards said openings, 65, by means of special baffle plates, 66, positioned inside the structure, 31, and, exactly, in the lower part of
this one.
Finally, each arm is completed by a protection grid, 34, in metallic material, and by end parts, 35, 36, working as closing elements, 35, and structural elements, 36, of the arm.
It can be noticed, referring to Figure 6, that in the circular base portion, 29, of arm 12, there are openings 38, uniformly spaced around the central axis of said portion, 29, said openings allowing the air passing. Obviously, the same configuration is
repeated in the base portion, 30, of arm 13.
Said openings, 38, communicate, by means of other
circular openings, 39, located in the upper portion, 51, of the main structure, 11, with a chamber, 45, included in said structure. In fact, as we can see in
Figure 3, the main structure, 11, of the apparatus is divided in two spaces 44, 45, by means of a divisor
internal wall, 46, which is a part of the internal
box-shaped structure, 37.
In said wall, 46, there is, as we can better see in Figure 7, a rectangular opening, 47, from which the air, coming to space 44 through the external slots,
48, is pumped towards the chamber 45 by using a fan,
49, located in said space 44. The external slots, 48, in the present embodiment, are located in the inferior portion, 52, of the main structure, 11.
In said inferior portion we can also see, referring to Figure 4, two cavities, 53, in which there are screw means connecting said inferior portion to the upper portion, 51; placed on this last one we find
the control panel, 54, of the hair dryer apparatus. This panel comprises, in this embodiment, the start button, 55, and the stop button, 56; two indicator lights, 57, 58, just indicating, respectively, the on status and the working status of the apparatus; a display, 59, on which the work time and others work
parameters are displayed; the buttons, 60, 61, dedicated to set the work time, in a decreasing way and in an increasing way, respectively; the button,
62, for selecting a certain pre-memorized operating
program; the button, 63, for regulating the amount of heat generated by the heat generating elements, 14,
15; the button, 64, for regulating the speed of fan
49.
Finally, still in figure 4, we can see the power
switch, 70.
The above hair dryer apparatus operates as follows.
As the apparatus is switched on, through the switch
70, the electronic control unit is simply in a standby condition, revealed by indicator light 57, and is ready to receive the control inputs concerning the operating way to perform.
The operator can thus either select, by means of button 62, an automatic operating cycle, or can manually set various operating parameters, by means, for instance, of buttons 60 and 61 as regards the work time, by means of button 63 as regards the amount of heat produced by elements 14 , 15, and by
means of button 64 as regards the amount of air flow produced by fan 49.
The operator can also select a fixed automatic cycle, and then, can modi y some parameters, such as time, amount of heat and/or airflow produced.
After that, by pushing button 55, the apparatus is put in normal operating condition, indicated by the
on status light 58.
In such condition, the heat generating elements, 14,
15, as well as the fan, 49, are supplied according to the just defined parameters, and the electric actuators, 18, 19, are normally supplied to rotate arms, 12, 13, around their respective axis, 16, 17, according to opposite rotations, each one of about
90°.
The cyclic reversing of the rotation of each actuator is assured by proximity switches, not shown for drawing simplicity, positioned near the pivots 23,
24.
The above operating way is automatically switched off at the end of the pre-set time; as well as, it can be switched off at anytime by means of button 56.
It is to be noticed that in this embodiment the electric actuators, 18, 19, work in synchronous manner, producing opposite and symmetric movements of
the radiating arms 12, 13.
However, in the event of special requirements, different operating ways may be provided, such, for
example, an operating way according to which the movements occur with a different speed of the
actuators, or, in a more simple way, just one actuator may be working. All this, thanks to the fact that there are two separate actuators dedicated to the rotation of the radiating arms .
But, obviously, according to a different embodiment of the present invention, one single actuator associated to a reduction gear having two outputs may be provided, said outputs being connected to the pivots, 23, 24, of the radiating arms.
This last solution is advantageous under the economic aspect, but it is less versatile, under the operating way, with respect to the afore-described
solution.
It is clear that further modifications to the described embodiment of the present invention will be
envisaged without departure from the scope of the invention.
For example, even though the existence of two separate cavities, 44, 45, in the main structure 11
is revealed a very effective solution as regards the feeding of the air to the radiating arms in order to obtain a high uniformly emitted flow, there cannot be
excluded different configurations of air conveyance to the arms and, even, different shape of the
openings or slots, 65, for the outlet of airflow from
the shielding element, 33.
Also the design of the main structure, 11, may be
different, still keeping its distinctive features as regards the handiness and the safety level of the proposed solution.
The control panel, 54, furthermore, can be modified to be suited, for example, to separately control the actuators, according to the above described ways.
Also the actuators can be different from the indicated ones; in fact, continuos current step motors could be employed.
These and other modifications may be carried out, always within the limits of the invention as defined in the appended claims.