The present invention relates to an electric household appliance.
More specifically, the present invention relates to an electric household appliance corresponding to a rotary-drum home washing machine or laundry drier, to which the following description refers purely by way of example.
As is known, rotary-drum laundry driers substantially comprise a substantially parallelepiped-shaped casing; a cylindrical laundry drying tub or chamber fixed horizontally inside the casing, directly facing a laundry loading/unloading opening formed, in the front face of the casing; a door hinged to the front face of the casing to rotate to and from a work position closing the opening in the front face and sealing the drying tub; a cylindrical, perforated-wall laundry drum housed in axially rotating manner inside the wash/drying tub; and an electric motor for rotating the laundry drum about its longitudinal axis inside the drying tub.
Rotary-drum driers of the above type also comprise a hot-air generator for circulating inside the drying tub hot, dry air, which flows through the laundry drum and over the laundry inside to dry the laundry rapidly.
More specifically, some so-called “vented driers” feature an open-circuit, hot-air generator, which comprises an intake manifold connecting the rear wall of the drying tub to an air inlet; and an air exhaust manifold connected at one end to the front wall of the drying tub, and at the other end to an air exhaust outlet at the front of the casing.
The open-circuit, hot-air generator also comprises an electric heating element located along the intake manifold to heat the air before it is fed into the drying tub; and a ventilation device located along the exhaust manifold to draw air along the intake manifold, feed the hot air through the drying tub, and expel the moist air through the exhaust manifold.
The ventilation device is defined by a fan located along the exhaust manifold; and by a drive interposed between the drum electric motor and the fan to rotate the fan.
Using the same electric motor to simultaneously rotate the air intake/exhaust fan and the drum, as opposed to a specific electric motor for each device, has the major advantage of reducing the manufacturing cost of the drier.
On the other hand, in driers, with open-circuit, hot-air generators, the above solution makes it difficult to also implement a crease-removing function for which there is strong market demand, and which provides for feeding a jet of steam into the drying tub to eliminate or at any rate greatly reduce creasing of the fabrics during the drying cycle, and so make the fabrics easier to iron.
More specifically, whereas, when feeding the steam into the drying tub, the drying tub must be rotated to loosen and partly eliminate creasing of the fabrics inside the drum, operating the ventilation device simultaneously with rotation of the drying tub has the major drawback of practically expelling the steam immediately from the tub, thus reducing the crease-removing effectiveness of the steam. In other words, effective crease removal is prevented by the ventilation device immediately and continuously exhausting the steam.
It is an object of the present invention to provide an electric household appliance, in particular a home laundry drier, which, on the one hand, maintains the advantages of known driers with an open-circuit, hot-air generator, by employing a single electric motor to rotate both the fan along the exhaust manifold, and the laundry drum, and which, on the other hand, provides for feeding steam correctly, i.e. with no immediate exhaust of the steam, into the drying tub, i.e. the laundry drum.
According to the present invention, there is provided an electric household appliance as claimed in claim 1 and preferably, though not necessarily, in any one of the claims depending directly or indirectly on claim 1.
A non-limiting embodiment of the present invention will be described by way of example with reference to the accompanying drawings, in which:
With reference to
Drier 1 also comprises an electric motor 7 or similar for rotating drum 3 about its longitudinal axis L, preferably, though not necessarily, inside a drying tub 6 housed inside casing 2. In the
With reference to
In other words, hot-air generator 5 provides for continually drawing in outside air, heating and feeding it into drum 3 to rapidly dry the laundry inside the drum, and exhausting the damp air from drum 3.
Hot-air generator 5 substantially comprises: an air intake manifold 8 having a first end connected to the rear wall of drum 3, and a second end connected to an air inlet 9 formed preferably, though not necessarily, in casing 2; an electric heating element 10 (in the example shown, a resistor) located along intake manifold 8 to rapidly heat the airflow through inlet 9; an exhaust manifold 11 having a first end connected preferably, though not necessarily, to the front wall of drum 3, and a second end connected to an exhaust outlet 12 preferably, though not necessarily, in the front face of casing 2; and a centrifugal fan 13 located along exhaust manifold 11 to produce, inside intake manifold 8 and exhaust manifold 11, an airflow, which flows through drum 3 and over the laundry inside the drum, and is exhausted to the outside.
Centrifugal fan 13 is connected by a drive mechanism (shown by the dash line) to electric motor 7, which rotates both fan 13 and drum 3 about respective axes of rotation as a function of control signals Sp generated by a control unit 14 during a user-selected drying cycle.
Drier 1 also comprises a steam generator 15, which, as a function of control signals Sp generated by control unit 14, feeds a steam jet into drum 3 to eliminate or at any rate greatly reduce creasing of the fabrics during the drying cycle.
Casing 2, drying tub 6, drum 3, electric motor 7, and steam generator 15 are commonly used parts in the industry and therefore not described in detail.
With reference to
In the
More specifically, centrifugal fan 13 is located along first manifold portion 16, downstream from second portion 17 along the air/steam flow path from drum 3 to exhaust outlet 12.
Second portion 17 of exhaust manifold 11 is defined by a substantially cylindrical box member or shell 21, which projects from the inner face of door 4, extends through opening 2a, and projects partly inside drum 3.
More specifically, with reference to
More specifically, the lateral wall 23 of shell 21 has a slit 24 which, when door 4 closes opening 2a, is positioned facing opening 18 to connect second manifold portion 17 to the inlet of first manifold portion 16, and so allow the air/steam flowing along second portion 17 to flow freely into first portion 16 and out to the outside.
Unlike known open-circuit, hot-air generators, open-circuit, hot-air generator 5 of drier 1 comprises shutter means 30 for selectively opening/closing exhaust manifold 11 (
In other words, shutter means 30 selectively close exhaust manifold 11 at the crease-removing stage to prevent the steam inside drum 3 from flowing freely along exhaust manifold 11 to the outside (
More specifically, in the example shown in
In the
Conversely, when shutter plate 25 is in the closed position (
In the
In the example shown, to activate the crease-removing function, the user moves shutter plate 25 manually from the open to the closed position using tab 36, thus closing exhaust manifold 11 and so preventing steam exhaust from drum 3 by centrifugal fan 13 (
Conversely, to activate the drying function, the user moves shutter plate 25 manually from the closed to the open position (
In a first variation shown in
More specifically, in the closed position, flap 32 seals opening 18 to prevent free air/steam flow from second portion 17 to first portion 16; whereas, in the open position, flap 32 is shifted to the side of opening 18 to fully open and connect opening 18 to slit 24 in shell 21, and so allow free air/steam flow from second portion 17 to first portion 16 of the exhaust manifold.
In a second variation shown in
More specifically, in the closed position, flap 33 seals slit 24; whereas, in the open position, flap 33 is positioned, on lateral wall 23 of shell 21, to the side of slit 24 to fully open and connect slit 24 to opening 18 in annular portion 35 of casing 2.
To simplify user operation, and prevent misuse, of shutter means 30, hot-air generator 5 may comprise a sensor 31 (
In the example shown, sensor 31 may conveniently comprise a microswitch, which switches from one on/off state to the other when shutter means 30 are set to the open or closed position.
In the
In the
To activate the drying function, the user sets shutter means to the open position opening exhaust manifold 11, and activates a drying cycle using selector means (not shown). At which point, by means of sensor 31, control unit 14 determines whether or not shutter means 30 are in the open position, and, if they are not, disables the user-set drying cycle.
Conversely, on determining shutter means 30 are in the open position, control unit 14 activates hot-air generator 5 and, simultaneously, electric motor 7, which rotates drum 3 and centrifugal fan 13, which expels the damp air along the, in this case, fully open exhaust manifold 11.
To activate the crease-removing function, the user sets shutter means 30 to the closed position closing exhaust manifold 11, and activates a crease-removing cycle using selector means (not shown).
At which point, by means of sensor 31, control unit 14 determines whether or not shutter means 30 are in the closed position, and, if they are not, disables the user-set crease-removing cycle.
Conversely, on determining shutter means 30 are in the closed position, control unit 14 activates steam generator 15 and, simultaneously, electric motor 7, which rotates both drum 3 and centrifugal fan 13, which, in this case, expels no steam from the drying tub, by virtue of exhaust manifold 11 being closed.
The drier described has the major advantage of employing a single electric motor for driving both the ventilation device and the laundry drum, thus maintaining the cost-saving advantages of known driers with an open-circuit, hot-air generator, while at the same time implementing the crease-removing function in an extremely straightforward manner, with no immediate steam exhaust from laundry drum 3, even with the fan running.
Moreover, sensor 31 safeguards against user selection and activation of drying or crease-removing cycles incompatible with the position of shutter means 30.
Without sensor 31, in fact, activation of a drying cycle with shutter means 30 in the closed position could result in overheating and damage to the laundry. Disabling of the drying cycle by control unit 14 on the basis of information from sensor 31, on the other hand, conveniently eliminates any risk of accidental damage to the fabrics inside the laundry drum.
Clearly, changes may be made to electric household appliance 1 as described herein without, however, departing from the scope of the present invention.
Number | Date | Country | Kind |
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07108567 | May 2007 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2008/003811 | 5/13/2008 | WO | 00 | 9/30/2009 |
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WO2008/141750 | 11/27/2008 | WO | A |
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