Patent Grant
9074312
The present application is a 371 of International Application No. PCT/IB2009/005888 filed Jun. 9, 2009 by Indesit Company S.P.A. for a WASHING MACHINE COMPRISING A DRAWER FOR LOADING A WASHING AGENT, which claims priorirty to Italian Application No. TO2008A000571 filed Jul. 24, 2008, both of which are hereby incorporated by reference in their entierty.
1. Field of the Invention
The present invention relates to a washing machine, such as a laundry washing or washing/drying machine, equipped with a drawer for loading washing agents, in accordance with the first claim.
2. The Prior Art
As known, in washing machines, and more specifically in laundry washing and washing/drying machines, before each operating cycle the user has to pour a dose of a washing agent (e.g. detergent or softener) into a single-dose drawer which is in fluid communication with the wash tub. When the machine is in operation, a water duct afferent to the drawer will flood the latter in order to supply the washing agent into the tub.
The term “single-dose drawer” refers herein to a drawer which can only contain a quantity of washing agent which is sufficient for one operating cycle of the machine, corresponding to treating one load of laundry (normally 3 to 7 Kg).
The capacity of the drawer is limited to one wash cycle in order to prevent any washing agent deposits in the drawer; in fact, the drawer is completely emptied and must then be refilled by the user before washing the next laundry load.
As an alternative to this system, which is per se functional but requires the user to refill the drawer after every wash, washing machines have been developed which are equipped with a bulk tank for washing agents: thanks to the multiple-dose capacity of their tanks, such machines can perform a certain number of wash cycles without the user having to refill the machine with a new dose of washing agent.
Machines of the above-mentioned type are described, for example, in British patent GB 2 214 524 in the name of INDUSTRIE ZANUSSI S.p.A. In this case, the machine base includes a certain number of washing agent bags which are installed in the machine after having been filled with respective washing agents and are then gradually emptied during the operating cycles of the machine; for this purpose, the bags are made of a deformable plastic material (so that no air can enter because the bags can adapt themselves to their decreasing contents), and are in fluid communication with a duct through which (by means of a pump) the washing agent is delivered to the tub.
Although the washing agent must no longer be poured in after every operating cycle of the machine, this solution still suffers from the drawback all entire washing agent bags must be replaced when they become empty, while the user is forced to carry out such task in non-optimal conditions, since the bags are located at the machine base in a position which is not easily accessible.
Moreover, the bags are made of flexible plastic, and presumably imply a certain purchase cost in addition to that of the washing agent; it follows that their complete replacement is not advantageous from an economical viewpoint.
Another system, disclosed by European patent EP 0 379 950 in the name of MIELE & CIE GmbH & CO., uses a rigid bulk tank for washing agents which are delivered to the tub through a suitable duct. The tank contains a washing agent volume corresponding to several working cycles of the machine, and the user fills the bulk tank by means of a tube having a funnel-shaped inlet mouth, which tube is connected to the tank in the lower front portion of the washing machine.
Although it overcomes some drawbacks of the previously described system (such as, for example, having to replace the entire bag), this solution still suffers from the drawback that the refilling operation is not ergonomical at all. In fact, the refilling tube has a limited length (for not taking up too much space when not in use), and the user must in any case bend to the machine base in order to pour the washing agent into the funnel-shaped mouth.
Another drawback which is common to the aforementioned solutions is that in both cases dedicated means are to be arranged on the front side of the washing machine exclusively for filling the bulk tanks. In fact, in the former case there are front doors through which the bags are removed and inserted, while in the latter case there is at least one access opening, which can be closed by means of a door or the like, through which the tank filling tube must be passed.
Some of these problems have been solved by the solution disclosed in the international application published under number WO03/027377 in the name of CADING KONSTRUKTIONS GmbH FUR MASCHINENBAU, wherein a washing agent dispenser kit capable of dispensing multiple washing agent doses is installed in a traditional washing machine.
In this solution, however, the tanks are filled by means of a special filling drawer provided by replacing the original drawer with a modified drawer essentially consisting of a simple tank filling mouth. In this regard, it should be pointed out that the water ducts afferent to a traditional single-dose drawer and required for flooding the latter have been totally eliminated in order to avoid tank flooding.
Even though this solution allows the tanks to be easily filled through the drawer, the original operation of the washing machine is changed, since it is transformed from a traditional machine using a drawer filled with a single dose by the user into a machine operating with bulk tanks. In this respect, also the original function of the dispenser drawer is completely lost, as a matter of fact, it completely loses the possibility of containing washing agents in single doses, since its only function is to provide access to the tanks.
The present invention aims at overcoming these and other drawbacks through a washing machine, such as a laundry washing or washing/drying machine, equipped with a drawer for loading washing agents.
The present invention is based on the idea of providing a washing machine which uses a single drawer both for loading single doses of washing agent and for filling at least one bulk tank arranged in a remote position with respect to the drawer and in fluid communication therewith.
Through a single operation carried out on the drawer, the user can, therefore, fill both the bulk tank and the single-dose compartment. This operation may be useful when the user wants to add to the wash cycle an additional agent (e.g. a dye fixative, a dye or the like) for which a dedicated tank does not exist or is not available.
It follows that a washing machine equipped with such a drawer provides much flexibility of use, because it can be used either as a traditional washing machine, wherein the user has to load the washing agents at every wash cycle, or as a washing machine provided with bulk tanks, which can be filled comfortably by the user without suffering the aforementioned drawbacks. It should be mentioned that such a washing machine will also allow for hybrid use combining both of the above modes of operation, i.e. the user can normally use the bulk tanks and, when necessary, add another washing agent (not contained in the tank) for particular wash types.
These features as well as further advantages of the present invention will become apparent from the following description of an embodiment thereof as shown in the annexed drawings, which are supplied by way of non-limiting example.
Further advantageous features will be set out in the appended claims.
In the Drawings:
Referring now to
As can be seen, the tanks are arranged in the lower part of the washing machine, under drawer 1, which in
As will be further described below, the drawer 1 is connected to tanks 35 and 36 through respective filling ducts, so that the tanks can be filled from the drawer itself.
As will be seen hereafter, drawer 1 can be extracted in at least two conditions, wherein it supplies washing agent either to the tanks or to the tub. In this regard, it should be mentioned right away that one position is defined as “partial extraction” to indicate a condition wherein the drawer is only partially extracted from its cavity, whereas the other position is defined as “full extraction” to indicate a condition wherein the drawer is fully extracted from the machine without however being detached from its slide rails; in this condition, in fact, the drawer is still engaged with the slide rails, and through these with the washing machine.
In the first embodiment shown in
The dashed line indicates the edge (which is fixed in relation to the drawer) of top wall 20 of the drawer, beyond which the latter projects outwards for allowing a user to pour in the washing agents.
Of course, fixed top 20, and the edge thereof, may also coincide with the frame or cabinet of the washing machine.
Referring back to drawer 1, it can be seen that it comprises two open-top chambers 2 and 3 extending longitudinally from front wall 10 of drawer 1 to the rear region thereof, where they are not delimited by a rear wall for the reasons discussed hereafter.
In the illustrated example, drawer 1 also comprises stop means 11 adapted to stop the extraction travel in a position where drawer 1 is partially extracted and protrudes only partially from the edge of fixed top 20.
In the illustrated embodiment, stop means 11 consist of a flexible arm 12 fitted with an engagement tooth 13, which when drawer 1 is extracted interferes with the edge of top 20, thereby stopping it as soon as the partial extraction condition shown in
Drawer 1 is also fitted with one oscillating door 16 and 17 for each chamber 2 and 3, which extends downwards to a certain distance from floor 15 of the chambers 2 and 3, so that the latter are de facto always open at the rear.
Housing seat 4 of drawer 1 has two drain apertures 5 and 6 in the bottom (shown in
Drawer 1 can be extracted by translating it from the fully retracted position of
As can be seen, in the two conditions of full retraction and partial extraction shown in
In particular, it should be pointed out that in the partially extracted condition floor 15 protrudes past the partition wall for the reasons explained below.
In fact, the washing agents are poured into the two chambers 2 and 3: referring to the condition of
Chambers 2 and 3 are therefore accessible to a user, who can pour in a washing agent to be supplied directly into the wash tub. Floor 15 of chambers 2 and 3 ends past wall 7, thus closing the apertures 5 and 6, which in fact are not visible in this figure. The washing agent loaded into chambers 2 and 3 either stops in the chamber (e.g. when it is a powder) or is conveyed by gravity beyond wall 7 along inclined portion 18 of housing seat 4. In either case (i.e. whether the washing agent stays in chamber 2 or 3 or is conveyed into housing seat 4), during the wash cycle water comes in from the chamber top which drags the washing agent into duct 14 and from there into the tub, thus providing a single-dose type of loading operation, i.e. all the washing agent poured and residing in the drawer is used during one operating cycle of the machine.
It is apparent from the above description that when drawer 1 is in the partially extracted condition, the loaded washing agents are not supplied to tanks 35 and 36, since drain apertures 5 and 6 are closed.
The extraction of drawer 1 is stopped in the position shown in
When the user wants to fill tanks 35 and 36, he/she will have to exert a certain force onto flexible arm 12 until tooth 13 is disengaged from top 20, so that the drawer can be brought into the fully extracted condition shown in
As can be seen, in this condition, floor 15 of chambers 2 and 3 will have translated past drain apertures 5 and 6, thereby uncovering them. Thus, a washing agent poured in drawer 1 in this condition will reach the rear portion, from where it will fall into drain apertures 5 and 6 and finally reach tanks 35 and 36.
In order to make this draining operation easier, floor 15 may be slightly inclined, so that the washing agent is conveyed by gravity towards the rear portion of drawer 1.
An alternative embodiment of the washing agent supply system is shown in
In this embodiment, drawer 1′ comprises two open-top chambers 2′ and 2″ and two feedboxes 3′ and 3″ for separately loading two distinct washing agents, such as a softener (e.g. in 2′ and 3′) and a detergent (e.g. in 2″ and 3″).
Feedboxes 3′ and 3″ are intended for filling the bulk tanks 35 and 36, and for this purpose they are each provided with a bottom drain aperture 31′, 31″ which can be put in fluid communication with the tanks, as will be explained in detail hereafter. It should be mentioned beforehand that drain apertures 31′ and 31″ are offset in relation to upper inlet mouths 32′ and 32″, since they are located in the rear portion of drawer 1′.
Open-top chambers 2′ and 2″ are intended for loading washing agent doses to be used up in the course of one operating cycle of the machine. To this end, chambers 2′ and 2″ can be flooded with water, which will then flow out of chambers 2′ and 2″ towards the tub of the machine, dragging along the washing agent.
In accordance with the teachings of the present invention, feedboxes 3′ and 3″ are arranged in the rear portion of chambers 2′ and 2″, so that the latter extend under the inlet mouth and around the drain, up to rear wall 33′ of drawer 1, where a drain port 21′ and 21″ is provided for each chamber to allow the contents of chambers 2′ and 2″ to be drained towards the tub.
With reference to
In fact, drawer 1′ can be extracted from its housing and take the aforementioned different positions in relation to fixed top 20. Perspective views of the partially and fully extracted positions of the drawer are also shown in
When drawer 1′ is moved to the partially extracted position, a user can only fill chambers 2′ and 2″ due to the fact that they project outwards from fixed top 20; it should be pointed out that in this condition, feedboxes 3′ and 3″ remain hidden and are therefore inaccessible.
When drawer 1′ is fully extracted, as shown in
Due to the fact that each drain aperture 31 is offset towards the rear wall of the drawer with respect to the inlet section, in the fully extracted condition, both feedboxes 3′ and 3″ are in fluid communication with fixed ducts 5′ afferent to washing agent tanks 35 and 36, which are arranged in the lower part of the washing machine. Thus, the ducts are in fluid communication with feedboxes 3′ and 3″ only when drawer 1 is fully extracted; this feature prevents the tanks from being accidentally contaminated by water or dirt.
The ducts are also provided with two funnel-shaped mouths (the drawings only show mouth 7′ of duct 5′), so as to facilitate the transfer of the washing agent and avoid any losses. The tanks can therefore be filled with respective washing agents only after the user has fully extracted drawer 1, thus exposing feedboxes 3′ and 3″, which in this condition are in fluid communication with the tanks.
When drawer 1′ is retracted in the respective housing of the washing machine, i.e. when fixed top 20 covers it entirely (typically when the washing machine is in operation), apertures 21′ and 21″ are over drain duct 10′ afferent to the tub, so that when chambers 2′ and 2″ are flooded, the water will carry the washing agent towards the tub by following drain duct 10′ shown in
The water is supplied from above through fixed top 20, which for this purpose has a number of holes opening into a water distribution channel 21.
If there is no washing agent in compartments 2′ and 2″, the user may without distinction choose either to flood them or not; if they are flooded, no washing agent will be dissolved and the water used will be conveyed into the tub through duct 10′ without carrying along any washing agent.
It should be noted that, although feedboxes 3′ and 3″ and chambers 2′ and 2″ are both housed within drawer 1, during the flooding step, no water can enter the tanks because access thereto will be prevented by feedboxes 3′ and 3″ not being in fluid communication with ducts 5′.
In this respect, it is conceivable that the holes of channel 21 are only present in the portion over the open top of chamber 2′ and 2″, so as to prevent the outflowing water from hitting feedboxes 3′ and 3″, or the holes of channel 21 may also extend over feedboxes 3′ and 3″, which will then be hit by the water and discharge it through drain apertures 31′ and 31″, which, however, in this operating condition will no longer be facing ducts 5′, but duct 10′; in this manner, any washing agent residues will also be removed from feedboxes.
It should be mentioned that this embodiment includes as well stop means 11 adapted to prevent the drawer from being inadvertently fully extracted. These means consist of an oscillating arm 13′ interfering with fixed top 20, thereby preventing the drawer from being extracted beyond the partially extracted position. In order to let drawer 1′ move to the fully extracted position, the oscillating arm can be brought into a non-interference position by acting upon a control a 12′ arranged in the drawer area and accessible from the outside when the drawer is in the partially extracted condition. The movement of control arm 12′ is coordinated with that of the oscillating arm so as to disengage the latter from top 20, thus allowing drawer 1′ to translate towards the fully extracted position. The washing agent supply system described above therefore uses a single drawer for both loading washing agents to be conveyed directly into the tub and loading washing agents to be stored in a collection tank before being delivered to the tub.
The washing or washing/drying machine described herein also offers an extremely high degree of versatility: in fact, it accepts without distinction liquid and powder washing agents.
The remarkable versatility of this machine is also expressed by the fact that it can execute a wash program which uses the washing agents contained in the tanks, e.g. a detergent and a softener, and include in the same operating cycle at least another washing agent, not contained in the tanks, such as a dye fixative. According to the teachings of the present invention, it is possible to use in one wash cycle two washing agents different from each other and different from those contained in the tanks.
It is also worth mentioning that the user may advantageously fill bulk tanks 35 and 36 from above by carrying out a simple operation while staying in a comfortable position.
It should also be pointed out that no area intended exclusively for filling the tanks is taken up on the front wall of the machine, since no dedicated means are employed for this sole purpose: in fact, there are no dedicated tank filling doors, since the means for filling the bulk tanks (i.e. the drawer) are partly shared with the means for loading single doses of washing agents.
Of course, the example described herein may be subject to many variations without departing from the protection scope and from the objects of the present invention.
According to a possible variation, the drawer referred to herein as a drawer subdivided into two parts may however be subdivided into any number of parts.
It is also worth mentioning that the flooding may be obtained by using means other than those described herein, e.g. by arranging a simple water supply duct.
As a further variant, it should be noted that the funnel-shaped mouths of the ducts may be replaced with hoses following the movements of drawer 1. This solution is more advantageous in terms of watertight connections among the various parts.
| Number | Date | Country | Kind |
|---|---|---|---|
| TO2008A0571 | Jul 2008 | IT | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/IB2009/005888 | 6/9/2009 | WO | 00 | 5/20/2013 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2010/010433 | 1/28/2010 | WO | A |
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| Number | Date | Country |
|---|---|---|
| 0379950 | Jan 1990 | EP |
| 2214524 | Nov 1991 | GB |
| WO03027377 | Apr 2003 | WO |
| WO 2008138762 | Nov 2008 | WO |
| WO 2009010402 | Jan 2009 | WO |
| Number | Date | Country | |
|---|---|---|---|
| 20130263631 A1 | Oct 2013 | US |
