Patent Description:
Advantageously, the present invention also relates to a filter assembly having a filter housing and a filter cartridge being removably arranged or arrangeable within the filter housing, in particular the filter assembly being suited for a domestic cooling appliance. In particular, the present invention relates to an air filter assembly for a domestic cooling appliance, the air filter assembly having an air filter housing and an air filter cartridge.

Advantageously, the present invention also relates to a domestic cooling appliance, even more particular a domestic refrigerator, having a filter assembly, in particular an air filter assembly.

There are known domestic appliances such as domestic refrigerators, which are used for the storage of food products. In particular, domestic refrigerators are applied so as to increase the possible storage time of the food products with respect to the putative storage times when being kept at ambient temperature.

Furthermore, a typical domestic refrigerator comprises one or more cooling chambers, which possibly may provide for different inner temperatures. there are known domestic refrigerators, which comprise a freezing chamber with an inner temperature below <NUM> and a cooling chamber with an inner temperature above <NUM>.

It is also known that a typical domestic refrigerator is used not only for the storage of one kind of food product, but typically different kinds of food products are stored within the same domestic refrigerator. These different kind of food products do not only differ in their physical state and form, but also regarding e.g. their smell. There are known food products, which provide for or which may develop a characteristic smell, which may, however, disturb the quality and taste of other food products or which may simply disturb a user when accessing the domestic refrigerator.

It may also occur from time to time that a consumer stores food products within the domestic refrigerator longer than suggested, leading to the degradation of the food product and the formation of unpleasant odors, which may interfere with the taste and quality of other food products and which may disturb a consumer assessing the domestic refrigerator.

Furthermore, it is known that food products such as fruits and vegetables may release ethylene, which may again enhance the maturing process of other food products.

In addition, it is also known that the organoleptic properties of food products may alter due to oxidation processes.

Therefore, in the recent years, filter assemblies have been proposed to be placed within the domestic refrigerator for reducing the above-mentioned inconveniencies. there are known filter assemblies, which are loosely placed within the domestic refrigerator or which are removably attached to an inner wall of the domestic refrigerator. These filter assemblies loose efficiency with time and, thus, have to be replaced from time to time. Typically exchange frequencies range between <NUM> to <NUM> months.

Even though the application of such filter assemblies has provided for improvements with regard to the above-mentioned inconveniencies, they still come along with some drawbacks. the filter assemblies being loosely arranged within the domestic refrigerator can freely move within the domestic refrigerator, which may lead to the creation of inconveniences when placing the food products within the domestic refrigerator. As well, it has been found that when using more than one filter assembly, the consumer may loose track on which filter assembly has been placed within the domestic refrigerator before the other one. With respect to the filter assemblies, which are attached to the inner walls, it has been found that they may detach from the inner walls during their lifetime.

Documents <CIT> and <CIT> disclose an air fan system comprising an air filter assembled in the refrigerator internal cavity.

Document <CIT> discloses a filter cartridge assembled on a refrigerator drawer housing.

Documents <CIT> and <CIT> disclose alternative ways to assemble a filter mat in a fan assembly mainly suitable for cabinet ventilation.

Moreover, the document <CIT> discloses a filter cartridge expelling device provided in a duct for the environment air purification.

Thus, a need is felt in the sector to improve the known filter assemblies so as to overcome at least one of the above-mention drawbacks.

One aim of the present invention is to provide for a filter cartridge of a filter assembly, to overcome, in a straightforward manner, at least one of the aforementioned drawbacks.

Another aim of the present invention is to provide for a filter assembly to overcome, in a straightforward manner, at least one of the aforementioned drawbacks.

Another aim of the present invention is to provide for a domestic appliance to overcome, in a straightforward manner, at least one of the aforementioned drawbacks.

According to the present invention there is provided an air filter cartridge for a filter assembly according to the independent claim <NUM>.

According to the present invention there is provided an air filter assembly according to the independent claim <NUM>.

According to the present invention there is also provided a domestic appliance according to claim <NUM>.

Preferred non-limiting embodiments are claimed in the respective dependent claims.

According to an embodiment not part of the present invention, there is provided an air filter cartridge for an air filter assembly for a domestic appliance, in particular for a domestic cooling appliance, even more particular for a domestic refrigerator, the filter cartridge comprising a spring element being arranged at a first wall of the filter cartridge and a moveable element being arranged at a second wall of the filter cartridge being transversal, in particular orthogonal, to the first wall. In particular, the spring element and the moveable element allow to interact with respective and distinct portions of the filter assembly so as to allow for specific functions associated to the spring element and the moveable element.

According to an embodiment not part of the present invention, preferentially but not necessarily, the spring element is integral to the first wall and/or the second moveable element is integral to the second wall. In this way, a simple construction of the filter cartridge is obtained and no further means of fixing the spring element and/or the moveable element are required.

According to an embodiment not part of the present invention, the moveable element is configured to move between at least two positions, in particular at which the moveable element is configured to respectively interact with a respective portion of the filter assembly and to release the interaction. In this way, it is possible to control the interaction of the moveable element with the respective portion of the filter assembly by controlling the moveable element between the two positions.

According to an embodiment not part of the present invention, the spring element is configured to exert a force into a first direction and the moveable element is moveable into a second direction, the second direction being transversal, in particular orthogonal to the first direction.

According to an embodiment not part of the present invention, preferentially but not necessarily, the moveable element is biased into the position at which the moveable element is configured to interact with the respective portion of the filter assembly. In particular, the moveable element is moveable into the second position by means of a user.

According to an embodiment not part of the present invention, the spring element is controllable into an active configuration at which the spring element is loaded and an inactive configuration at which the spring element is free of any loaded force. In particular, the spring element is configured to be controlled from the inactive configuration into the active configuration by means of interaction with a respective portion of the filter assembly. Even more particular, when the filter cartridge is separated from other portions of the filter assembly distinct from the filter cartridge, the spring element is controlled in its inactive configuration and when the filter cartridge is brought into contact with the other portions of the filter assembly, the spring element is controlled in the active configuration. In such a manner, it is possible to define a force acting on the filter cartridge, which is thought to facilitate the removal of the filter cartridge form the other portions of the filter assembly.

According to an embodiment not part of the present invention, the spring element comprises and/or is defined by a bendable plate reversibly controllable into a non-bent position and a bent position, in particular at which the spring element is controlled at respectively its inactive configuration and active configuration. In this way, an efficient construction of the spring element is obtained, which can be easily arranged and/or provided for at the respective first wall.

According to an embodiment not part of the present invention, preferentially but not necessarily, the spring element is defined and/or determined and/or obtained by providing for a recess within the first wall. Such a solution allows for an easy way on how to construct the spring element.

According to an embodiment not part of the present invention, the air filter cartridge comprises an enclosure carrying the spring element and the moveable element and a filter element arranged within the enclosure. In particular, the enclosure comprises the first and the second wall. In this way, it is possible to distinguish the structural element defining the extensions of the air filter cartridge and the active element, which results in the actual filtering activity of the air filter cartridge.

According to an embodiment not part of the present invention, preferentially but not necessarily, a cross-section of the enclosure presents a trapezoidal shape. In this manner, it is possible to define a preferred orientation of the air filter cartridge, in particular in collaboration with other portions of the air filter assembly.

According to an embodiment not part of the present invention, preferentially but not necessarily, the enclosure comprises a plurality of lateral walls, a base wall and a cover wall delimiting an inner space of the filter cartridge.

According to an embodiment not part of the present invention, preferentially but not necessarily, the base wall and/or the cover wall is/are hinged each to one respective lateral wall for allowing to access the inner space. In this way, it is possible to access the inner space and to replace the filter element.

According to an embodiment not part of the present invention, preferentially but not necessarily, the cover wall defines and/or comprises the second wall and/or one lateral wall defines and/or comprises the first wall. In particular, the moveable element is hinged to the cover wall and/or the spring element is hinged to the respective lateral wall. In this way, an easy way of obtaining the specific functions associated to the spring element and/or the moveable element are obtained.

According to an embodiment not part of the present invention, the spring element defines a portion of an expelling device of the filter assembly and the moveable element defines a portion of a locking device of the filter assembly.

According to an embodiment not part of the present invention, preferentially but not necessarily, the filter assembly comprises also a filter housing and the filter cartridge is removably placeable within the filter housing. In particular, the spring element is configured to interact with a portion of the filter housing in order to exert an expelling force onto the filter cartridge and the moveable element is configured to interact with another portion of the filter housing for blocking the filter cartridge within the filter housing and to counter-act the expelling force. In such a manner, an easy mechanism is provided to allow on the one side for a safe placement of the filter cartridge within the filter housing and on the other side to allow for an easy extraction of the filter cartridge out of the filter housing.

In addition, according to the present invention, there is provided an air filter cartridge, in particular a replaceable filter cartridge, for an air filter assembly, the filter assembly comprising the filter cartridge and a filter housing. The filter cartridge is (removably) placeable within the filter housing and comprises a spring element configured to interact with a portion, in particular an inner portion and/or a control element, of the filter housing and to exert an expelling force on the filter cartridge out of the filter housing when being placed within the filter housing. The filter cartridge also comprises a first interaction element controllable into a locking position at which the first interaction element is configured to interact with a second interaction element of the filter housing for blocking the filter cartridge within the filter housing and/or for counter-acting against the expelling force and an unlocking position at which the interaction between the first interaction element and the second interaction element is released and/or loosened for allowing the expelling force to at least partially expel the filter cartridge from the filter housing.

Such a filter cartridge allows at one side for a safe and reliable arrangement of the filter cartridge within the filter housing and an easy removal of the filter cartridge from the filter housing. This also means that the position of the filter assembly is not subject to any changes. These advantages are obtained by providing on the one side for a spring element, which would direct the filter cartridge out of the filter housing if it was not for the first interaction element. The removal of the filter cartridge is easily achievable by controlling the first interaction element from the locking position to the unlocking position.

The air filter assembly is suited for use in a domestic cooling appliance, such as a domestic refrigerator or similar.

According to a preferred non-limiting embodiment, the spring element is controllable into an active configuration at which the spring element is configured to exert the expelling force. The spring element is designed to be controlled into the active configuration through interaction with a portion of the filter housing and with the filter cartridge being arranged within the filter housing. This allows to provide for an efficient manner of loading the spring element and to guarantee that the filter cartridge will be expelled when needed.

According to a preferred non-limiting embodiment, the spring element is defined by and/or comprises a bendable plate reversibly controllable into a non-bent position and a bent position. By providing for a bendable plate being reversibly bendable, it is possible to repeatedly introduce and remove the same filter cartridge into the filter housing without losing the functionality of the filter cartridge. Such a preferred non-limiting embodiment, also allows for an easy construction of the spring element and the presence of a controlled expelling force.

According to a preferred non-limiting embodiment, the bendable plate is controllable into the bent position through a control element associated to the filter housing and when being arranged within the filter housing. In such a manner it is guaranteed that upon insertion of the filter cartridge into the filter housing the bendable plate will be loaded.

According to a preferred non-limiting embodiment, the first interaction element is biased into the locking position. In such a manner, it is guaranteed that the expelling force will be automatically counter-acted once the filter cartridge is arranged within the filter housing. A user needs to control the first interaction element into the unlocking position so as to obtain the expelling of the filter cartridge.

According to a preferred non-limiting embodiment, the first interaction element comprises a first engagement surface configured to abut as a result of the expelling force against a second engagement surface of the second interaction element for blocking the filter cartridge within the filter housing. This ensures an efficient manner of securing the filter cartridge within the filter housing.

According to a preferred non-limiting embodiment, the first interaction element comprises an active portion carrying the first engagement surface and being moveable between an extracted position and a retracted position. In this manner, it is possible to control the position of the first engagement surface, in particular for possibly disengaging the first engagement surface from the second engagement surface by moving the active portion from the extracted position to the retracted position.

According to a preferred non-limiting embodiment, the filter cartridge further comprises an enclosure carrying the spring element and the first interaction element and a filter element arranged within the enclosure.

According to a preferred non-limiting embodiment, the spring element and/or the first interaction element are integral to the enclosure. In this way, a simple construction of the filter cartridge is obtained and no further means of fixing the spring element and/or the first interaction element are required.

In addition, according to the present invention, there is provided an air filter assembly comprising a filter housing and a removable air filter cartridge arranged and/or arrangeable within the filter housing. The filter assembly comprises:.

The control device comprises at least the first interaction element and the second interaction element interacting with one another with the control device being controlled into the locking configuration.

The interaction between the first interaction element and the second interaction element is interrupted with the control device being controlled into the unlocking configuration.

The filter cartridge is provided with the first interaction element and the filter housing is provided with the second interaction element.

Such a filter assembly allows on the one side to secure the replaceable filter cartridge within the filter housing and on the other side to easily remove the filter cartridge from the filter housing if needed and by simply controlling the control device so that a force acting against the expelling force exerted by the expelling device is present or is released.

According to a preferred non-limiting embodiment, the first interaction element is moveable between the locking position and the unlocking position at which the control device is controlled at respectively the locking configuration and the unlocking configuration. the position of the first interaction element defines the configuration of the control device and the control is achieved by means of the unlocking device. In particular, with the first interaction element being controlled at the locking configuration the first interaction element is adapted to and/or interacts with the second interaction element.

Preferentially but not necessarily, the first interaction element is biased into the locking position. in the absence of the application of a specific force on the first interaction element, the first interaction element is arranged at the locking position. In this manner, it is guaranteed that the filter cartridge is blocked within the filter housing in the absence of any (unlocking) force acting on the first interaction element. This also means that it is required to apply a (unlocking) force in order to control the first interaction element into the unlocking position.

According to a preferred non-limiting embodiment, the first interaction element comprises a first engagement surface configured to abut, in particular because of the expelling force, against a second engagement surface of the filter housing for blocking the filter cartridge within the filter housing. In particular, the first interaction element comprises an active portion carrying the first engagement surface and being moveable between an extracted position and a retracted position. In this manner, it is possible to control the position of the first engagement surface, in particular for possibly disengaging the first engagement surface from the second engagement surface by moving the active portion from the extracted position to the retracted position. In particular, by disengaging the first engagement surface from the second engagement surface the extraction force will result in the at least partial expelling of the filter cartridge from the filter housing.

According to a preferred non-limiting embodiment, the filter assembly also comprises an unlocking device configured to control the control device between the locking configuration and the unlocking configuration. Preferentially but not necessarily, the unlocking device is configured to control the control device from the locking configuration to the unlocking configuration. In such a manner, the force acting against the expelling force is released by means of a control and/or manipulation of the unlocking device. This results, in use, in the expelling of the filter cartridge.

Preferentially but not necessarily, the unlocking device is controllable by a user, in particular by exerting a pressure and/or an unlocking force on the unlocking device.

According to a preferred non-limiting embodiment, the filter housing comprises the unlocking device. This allows a simple construction of the unlocking device and an easy control of the unlocking device as the filter housing is exposed to a user.

According to a preferred non-limiting embodiment, the unlocking device is configured to interact with the first interaction element.

Preferentially but not necessarily, the unlocking device is configured to move the first interaction element from the locking position to the unlocking position.

According to a preferred non-limiting embodiment, the expelling device comprises a spring element controllable into an active configuration at which the spring element is configured to exert the expelling force. In particular, the spring element is designed to be controlled into the active configuration through interaction with a control element with the filter cartridge being arranged within the filter housing. In this manner, it is ensured that the spring element exerts the expelling force, once the filter cartridge is arranged within the filter housing.

According to a preferred non-limiting embodiment, the filter housing and/or the expelling device comprises the control element, the control element being configured to interact with the spring element for controlling the spring element into the active configuration. In particular, the control element is arranged at an inner surface of the filter housing. Even more particular, the control element is arranged at an inner surface of a lateral wall of the filter housing, which is opposite to a lateral wall of the filter housing carrying an opening for allowing for the introduction and removal of the filter cartridge into and out of the filter housing. In particular, the control element protrudes from the inner surface towards the opening.

According to a preferred non-limiting embodiment, the spring element comprises and/or is defined by a bendable plate reversibly controllable into a non-bent position and a bent position, in particular at which the spring element is controlled at its respective inactive configuration and active configuration. In this way, an efficient construction of the spring element is obtained, which can be easily arranged and/or provided for at the respective lateral wall.

Preferentially but not necessarily, the spring element is defined and/or determined and/or obtained by providing for a recess within the respective lateral wall. Such a solution allows for an easy way on how to construct the spring element.

Preferentially but not necessarily, the bendable plate is configured to exert the expelling force when being controlled into the bent position by interaction with the control element associated to the filter housing.

According to a preferred non-limiting embodiment, the control element is configured to interact with the bendable plate.

Preferentially but not necessarily, the control element is configured to interact with the bendable plate such that the bendable plate is controlled into the bent positon with the filter cartridge being arranged within the filter housing. This allows to guarantee that the expelling force acts on the filter cartridge once the filter cartridge has been inserted and/or introduced into the filter housing.

According to a preferred non-limiting embodiment, the air filter cartridge comprises an enclosure carrying the spring element and the first interaction element and a filter element arranged within the enclosure. In this way, it is possible to distinguish the structural element defining the extensions of the air filter cartridge and the active element, which results in the actual filtering activity of the air filter cartridge.

Preferentially but not necessarily, the spring element and the first interaction element are integral to the enclosure. This allows to produce the filter cartridge in a simplified manner.

According to a preferred non-limiting embodiment, the filter housing comprises an inner space for housing the filter cartridge and an opening allowing for the introduction and removal of the filter cartridge into and from the inner space. The inner space and/or the opening and the filter cartridge, in particular the enclosure, are shaped such that introduction of the filter cartridge into the filter housing is available only according to one specific determined and/or defined orientation of the filter cartridge. This means that a user is assisted in the determination of the correct orientation of the filter cartridge so that the expelling device and the control device operate correctly.

Preferentially but not necessarily, a cross-section of the enclosure and a cross-section of the opening present a trapezoidal shape. In this manner, it is possible to define a preferred orientation of the filter cartridge, in particular in collaboration between the filter cartridge and the filter housing, in particular the opening.

In addition, according to the present invention, there is provided a domestic cooling appliance, in particular a domestic refrigerator, comprising at least one air filter assembly.

According to a preferred non-limiting embodiment, the filter housing of the filter assembly is integral and/or fixedly secured to at least a portion of the domestic appliance. In this way, a fixed and secured position of the filter assembly is ensured.

A non-limiting embodiment of the present invention will now be described, by way of example, with reference to the accompanying drawings, in which:.

With reference to <FIG>, number <NUM> indicates as a whole a domestic appliance, in particular a domestic refrigerator, comprising a filter assembly <NUM>, in particular an air filter assembly <NUM>, the filter assembly <NUM> being adapted to filter gas, in particular air, in particular within domestic appliance <NUM>.

According to a preferred non-limiting embodiment, filter assembly <NUM> is configured to filter air, in particular to at least absorb odors and/or ethylene and/or is configured to at least provide for an antibacterial and/or an antioxidant action.

According to a preferred non-limiting embodiment, domestic refrigerator <NUM> comprises at least a first cooling chamber <NUM>, in particular also a second cooling chamber <NUM>. In particular, each one of cooling chambers <NUM> and <NUM> being configured to host food products at a defined and/or determined inner temperature.

According to a preferred non-limiting embodiment, domestic refrigerator <NUM> comprises a cooling unit (not shown and known as such) configured to selectively control the temperature within cooling chamber <NUM> and/or <NUM>. In particular, the cooling unit is configured to control a temperature above <NUM> within cooling chamber <NUM> and a temperature below <NUM> within cooling chamber <NUM>.

Preferentially but not necessarily, domestic refrigerator <NUM> also comprises one or more shelves <NUM> and/or one or more crisper drawers <NUM>, each one being arranged within one respective of cooling chamber <NUM> and cooling chamber <NUM>.

According to a preferred non-limiting embodiment, each one of cooling chambers <NUM> and <NUM> comprises respective delimiting walls <NUM> for partially delimiting one respective cooling space <NUM> and defining a respective opening <NUM> for allowing the introduction and the removal of products, in particular food products, into and from the respective cooling space <NUM>.

According to a preferred non-limiting embodiment, domestic refrigerator <NUM> also comprises at least one door <NUM> for selectively opening and closing at least one cooling space <NUM>. According to the non-limiting embodiment shown, domestic refrigerator <NUM> comprises two doors <NUM>, one associated to cooling chamber <NUM> and the other one associated to cooling chamber <NUM> for independently opening and closing the respective cooling space <NUM>.

With particular reference to <FIG>, filter assembly <NUM> is associated to cooling chamber <NUM>, in particular to one crisper drawer <NUM> arranged within cooling chamber <NUM>. In alternative, filter assembly <NUM> could be associated to one shelf <NUM> or to a respective inner surface of one delimiting wall <NUM>. In alternative, filter assembly <NUM> may also be associated to cooling chamber <NUM> instead to cooling chamber <NUM>.

It should be noted that domestic refrigerator <NUM> may also comprise more than one filter assembly <NUM>.

Preferentially but not necessarily, each one of cooling chambers <NUM> and <NUM> comprises at least one filter assembly <NUM>.

With particular reference to <FIG>, <FIG> and <FIG>, filter assembly <NUM> comprises a filter housing <NUM>, in particular an air filter housing <NUM>, and a filter cartridge <NUM>, in particular an air filter cartridge <NUM>, removably arranged and/or removably arrangeable within filter housing <NUM>.

With particular reference to <FIG> and according to a preferred non-limiting embodiment, filter housing <NUM> is fixed and/or mounted and/or attached to a portion, in particular an inner surface, of domestic refrigerator <NUM>. In the example shown in <FIG>, filter housing <NUM> is attached to a surface of one crisper drawer <NUM>.

In particular, this allows to define and/or determine the location of filter assembly <NUM> within domestic refrigerator <NUM>.

According to a possible embodiment, filter housing <NUM> is integral to and/or fixedly secured to, a portion of domestic refrigerator <NUM>, in the case shown integral to one crisper drawer <NUM>. In particular, to be integral and/or fixedly secured means that filter housing <NUM> cannot be removed from the respective portion. in the specific case shown in <FIG>, filter housing <NUM> cannot be removed from the respective crisper drawer <NUM>.

In alternative, filter housing <NUM> could be a separate piece being (removably) attached to domestic refrigerator <NUM>.

Advantageously and with particular reference to <FIG>, filter assembly <NUM> further comprises:.

In particular, it is to be noted that the control device when being controlled in the locking configuration impedes the expelling device to exert its function to expel filter cartridge <NUM> from filter housing <NUM> and, only, with the control device being controlled into the unlocking configuration, the expelling device is adapted to at least partially expel filter cartridge <NUM> from filter housing <NUM>.

In particular, it should be further noted that while the control device is controllable between at least the locking and unlocking configurations, the expelling device is automatically active after the introduction of filter cartridge <NUM> into filter housing <NUM>. Thus, the expelling force acts on filter cartridge <NUM>, even though filter cartridge <NUM> is impeded from exiting from filter housing <NUM> due to the control device being in the locking configuration.

In this way, it is guaranteed that filter cartridge <NUM> remains blocked within filter housing <NUM> and a controlled removal of filter cartridge <NUM> from filter housing <NUM> is possible due to the control device.

According to a preferred non-limiting embodiment, the control device is biased into the locking configuration.

According to a preferred non-limiting, filter assembly <NUM> also comprises an unlocking device <NUM> configured to control the control device between the locking configuration and the unlocking configuration.

Preferentially but not necessarily, unlocking device <NUM> is configured to control, in use upon activation of unlocking device <NUM> itself, control device from the locking configuration to the unlocking configuration. In other words, upon activation of unlocking device <NUM> it is possible to deactivate the control device (to control the control device into the unlocking configuration) so that the expelling device is adapted to expel filter cartridge <NUM>.

Advantageously, the control device comprises at least a first interaction element <NUM> and a second interaction element <NUM> being configured to interact and/or interacting with one another with the control device being controlled into the locking configuration, and in particular with filter cartridge <NUM> being arranged within filter housing <NUM>, and first interaction element <NUM> and second interaction element <NUM> are configured such that the interaction between first interaction element <NUM> and second interaction element <NUM> is interrupted and/or released with the control device being controlled into the unlocking configuration (i.e. the interaction between first interaction element <NUM> and second interaction element <NUM> is interrupted and/or released with the control device being controlled into the unlocking configuration so that the expelling device is not further hindered to expel filter cartridge <NUM>).

Advantageously, filter cartridge <NUM> carries and/or comprises first interaction element <NUM> and filter housing <NUM> is provided with and/or carries and/or comprises second interaction element <NUM>.

Preferentially but not necessarily, filter cartridge <NUM> comprises a moveable element defining and or comprising first interaction element <NUM> and being (moveably) arranged at a respective wall of filter cartridge <NUM> itself.

Preferentially but not necessarily, first interaction element <NUM> is integral to filter cartridge <NUM> and/or second interaction element <NUM> is integral to filter housing <NUM>.

According to a preferred non-limiting embodiment, first interaction element <NUM> is moveable between a locking position and an unlocking position at which the control device is controlled into respectively the locking configuration and the unlocking configuration.

Preferentially but not necessarily, first interaction element <NUM> is moveable into a second direction D2 transversal, in particular perpendicular, to direction D1.

Preferentially but not necessarily, first interaction element <NUM> is biased into the locking position.

According to a preferred non-limiting embodiment, unlocking device <NUM> is configured to interact with first interaction element <NUM>, even more particular unlocking device <NUM> is configured to (be activated by an user) for moving first interaction element <NUM> from the locking position to the unlocking position.

According to a preferred non-limiting embodiment, first interaction element <NUM> comprises a first engagement surface <NUM> and second interaction element <NUM> comprises a second engagement surface <NUM>. In particular, first engagement surface <NUM> is configured, in particular with filter cartridge <NUM> being introduced into filter housing <NUM> and when being controlled into the locking configuration, to abut, as a result of the expelling force, against second engagement surface <NUM> for blocking filter cartridge <NUM> within filter housing <NUM>.

Preferentially but not necessarily, unlocking device <NUM> is configured to disengage first engagement surface <NUM> from second engagement surface <NUM> for controlling the control device from the locking configuration into the unlocking configuration.

According to a preferred non-limiting embodiment, first interaction element <NUM> has an active portion <NUM> carrying first engagement surface <NUM> and being moveable between an extracted position and a retracted position at which first interaction element <NUM> is arranged at respectively the locking position and the unlocking position (and the control device at respectively the locking configuration and the unlocking configuration).

Preferentially but not necessarily, active portion <NUM> is biased into the extracted position.

Preferentially but not necessarily, unlocking device <NUM> is configured to move active portion <NUM> from the extracted position to the retracted position.

With particular reference to <FIG>, <FIG>, <FIG>, unlocking device <NUM> comprises one or more, in the specific case shown two, protrusion elements <NUM> configured to engage with first engagement element <NUM> and/or active portion <NUM>, and to move, in particular upon activation of unlocking device <NUM> and movement of protrusion elements <NUM> themselves, first engagement element <NUM> from the locking position to the unlocking position and/or active portion <NUM> from the extracted position to the retracted position.

According to a preferred non-limiting embodiment, unlocking device <NUM> also comprises a control pad <NUM> configured to be pressed and/or handled and/or touched and/or operated by a user and being operationally connected with protrusion elements <NUM> for moving protrusion elements <NUM> upon pressing and/or handling and/or touching and/or operating control pad <NUM>.

Preferentially but not necessarily, protrusion elements <NUM> are configured to move into a direction transversal, in particular substantially orthogonal, to direction D1 (and/or substantially parallel to direction D2) for moving first interaction element <NUM> from the locking position to the unlocking position and/or active portion <NUM> from the extracted position to the retracted position.

According to a preferred non-limiting embodiment, filter housing <NUM> comprises and/or is provided with unlocking device <NUM>, in particular with protrusion elements <NUM> and/or control pad <NUM>.

With particular reference to <FIG> and <FIG>, the expelling device comprises a spring element <NUM>, in particular an elastically deformable spring element <NUM>, configured to exert the expelling force on filter cartridge <NUM>. spring element <NUM> is configured to at least partially direct filter cartridge <NUM> out of filter housing <NUM>.

According to the non-limiting embodiment shown, filter cartridge <NUM> is provided with and/or comprises spring element <NUM>. In particular, spring element <NUM> is integral to filter cartridge <NUM>.

Preferentially but not necessarily, spring element <NUM> is arranged at a respective wall of filter cartridge <NUM> itself. In particular, the respective wall at which spring element <NUM> is arranged is transversal, in particular orthogonal, to the respective wall wat which is arranged the moveable element (interaction element <NUM>).

In alternative or in addition, filter housing <NUM> could be provided with and/or could comprise spring element <NUM>.

In alternative or in addition, spring element <NUM> could be distinct from filter housing <NUM> and filter cartridge <NUM> and could be interposed between filter cartridge <NUM> and filter housing <NUM> with filter cartridge <NUM> being arranged within filter housing <NUM>.

According to a preferred non-limiting embodiment, spring element <NUM> is controllable into an active configuration at which spring element <NUM> is configured to exert the expelling force (i.e. spring element <NUM> is loaded).

Preferentially but not necessarily, spring element <NUM> is also configured to be controllable into an inactive configuration at which spring element <NUM> is free of any loaded force. In particular, spring element <NUM> is configured such to be in the inactive configuration with filter cartridge <NUM> being arranged outside from filter housing <NUM> and is controlled into the active configuration with filter cartridge <NUM> being blocked within filter housing <NUM>.

According to a preferred non-limiting element, the expelling device also comprises a control element <NUM> configured to interact with spring element <NUM> for controlling spring element <NUM> into the active configuration. In other words, spring element <NUM> is designed to be controlled into the active configuration through interaction with control element <NUM> and with filter cartridge <NUM> being arranged within filter housing <NUM>.

According to a preferred non-limiting embodiment, spring element <NUM> comprises and/or is defined by a bendable plate <NUM> reversibly controllable into a non-bent position and a bent position. Preferentially but not necessarily, spring element <NUM> is arranged in the active configuration with bendable plate <NUM> being in the bent position, and in particular is arranged in the inactive configuration with bendable plate <NUM> being in the non-bent position. bendable plate <NUM> is configured to exert the expelling force when being controlled into the bent position.

Preferentially but not necessarily, bendable plate <NUM> is controllable into the bent position through interaction with control element <NUM> and with filter cartridge <NUM> being arranged within filter housing <NUM>. In particular, bendable plate <NUM> is configured to bend upon interaction with control element <NUM>.

Preferentially but not necessarily, bendable plate <NUM> is configured to bend along direction D1 when being controlled into the bent position and to move into a direction opposed to direction D1 when moving from the bent position to the non-bent position.

With particular reference to <FIG>, filter housing <NUM> comprises an inner space <NUM> for housing filter cartridge <NUM> and an opening <NUM> allowing for the introduction and removal of filter cartridge <NUM> into and from filter housing <NUM>, in particular inner space <NUM>.

According to a preferred non-limiting embodiment, second engagement surface <NUM> is arranged within and/or faces inner space <NUM>.

According to a preferred non-limiting embodiment, inner space <NUM> and/or opening <NUM> and filter cartridge <NUM> are shaped such that introduction of filter cartridge <NUM> into filter housing <NUM>, in particular inner space <NUM>, is available only according to one specific and/or determined and/or defined orientation of filter cartridge <NUM>.

Preferentially but not necessarily, also first interaction element <NUM>, in particular active portion <NUM>, is configured to partially determine and/or define the orientation with which filter cartridge <NUM> is to be introduced into filter housing <NUM>, in particular inner space <NUM>. In this way, it is ensured that a user inserts, in use, filter cartridge <NUM> into filter housing <NUM> in the correct manner so as to guarantee the correct function of the expelling device and the control device.

Preferentially but not necessarily, active portion <NUM> comprises one or more flanks configured to interact with a respective portion of filter housing <NUM> during insertion of filter cartridge <NUM> into filter housing <NUM>. In particular, during insertion of filter cartridge <NUM> into filter housing <NUM>, the interaction of the flanks of active portion <NUM> with the respective portion of filter housing <NUM> results in a movement of active portion <NUM> from the extracted to the retracted position and once filter cartridge <NUM> is arranged within filter housing <NUM>, active portion <NUM> returns at the extracted position.

Preferentially but not necessarily, a cross-section of opening <NUM> and the a cross-section of filter cartridge <NUM> are such to define and/or determine at least partially the orientation of filter cartridge <NUM> within which filter cartridge <NUM> is required to be introduced into filter housing <NUM>, in particular into inner space <NUM>.

According to the specific embodiment disclosed, the cross-section of opening <NUM> and the cross-section of filter cartridge <NUM> have a trapezoidal shape.

Alternatively, the cross-sections of opening <NUM> and of filter cartridge <NUM> could have other shapes as long as these allow to define and/or determine the orientation with which filter cartridge <NUM> has to be introduced into filter housing <NUM>.

With particular reference to <FIG>, <FIG> and <FIG>, filter housing <NUM> comprises a plurality of lateral walls <NUM> partially delimiting inner space <NUM>.

According to a preferred non-limiting embodiment, one respective lateral wall <NUM>, in particular the respective inner surface, carries and/or comprises second engagement surface <NUM>. In particular, second engagement surface <NUM> is defined by a portion of the inner surface of the respective lateral wall <NUM>.

According to a preferred non-limiting embodiment, one respective lateral wall <NUM>, in particular the one carrying engagement surface <NUM>, carries and/or comprises opening <NUM>.

Preferentially but not necessarily, opening <NUM> is delimited by respective rim portions of the respective lateral wall <NUM>. In particular, one of the respective rim portions carries and/or comprises second engagement surface <NUM>.

According to a preferred non-limiting embodiment, one respective lateral wall <NUM> comprises and/or carries control element <NUM>. In particular, the respective lateral wall <NUM> carrying control element <NUM> is opposite to the one carrying and/or comprising the lateral wall <NUM> having opening <NUM>.

According to a preferred non-limiting embodiment, control element <NUM> protrudes from the respective inner surface of the respective lateral wall <NUM> and into inner space <NUM>. In particular, control element <NUM> protrudes towards opening <NUM>.

Preferentially but not necessarily, control element <NUM> is configured to interact with one portion of bendable plate <NUM> and to direct the portion away from the respective inner surface of the respective lateral wall <NUM>. In this manner, bendable plate <NUM> is bent by control element <NUM> and is loaded (i.e. spring element <NUM> is controlled into the active configuration).

According to a preferred non-limiting embodiment, filter housing <NUM> also comprises a base portion <NUM> being configured to be attached and/or is integral to a surface, in particular to a surface of domestic appliance <NUM>, and a cover portion <NUM> being opposed to base portion <NUM>.

According to a preferred non-limiting embodiment, lateral walls <NUM> are interposed between base portion <NUM> and cover portion <NUM>.

Preferentially but not necessarily, base portion <NUM> and lateral walls <NUM> are fixed to one another.

Preferentially but not necessarily, cover portion <NUM> is removably coupled to lateral walls <NUM>.

According to an alternative embodiment, base portion <NUM> could be removably coupled to lateral walls <NUM>.

According to a preferred non-limiting embodiment, cover portion <NUM> carries and/or comprises unlocking device <NUM>, in particular protrusion elements <NUM> and/or control pad <NUM>.

According to a preferred non-limiting embodiment, protrusion elements <NUM> protrude from an inner side of cover portion <NUM> into inner space <NUM> and/or control pad <NUM> is arranged at an outer side of cover portion <NUM> opposite to the inner side. In particular inner side of cover portion <NUM> faces (an inner side) of base portion <NUM>.

According to a preferred non-limiting embodiment, filter housing <NUM> also comprises a plurality of aeration holes <NUM> configured to allow for aeration of inner space <NUM> and/or for a gas exchange between inner space <NUM> and an outer space (e.g. with one respective cooling space <NUM>).

Preferentially but not necessarily, cover portion <NUM> and/or base portion <NUM> comprise at least some of aeration holes <NUM>. In particular, aeration holes <NUM> are arranged such to allow a flow of gas through the aeration holes <NUM> associated to cover portion <NUM> into inner space <NUM> and out of the aeration holes <NUM> associated to base portion <NUM> and vice-versa.

With particular reference to <FIG> and <FIG>, filter cartridge <NUM> further comprises:.

According to a preferred non-limiting embodiment, filter element <NUM> is configured to absorb odors and/or ethylene and/or is provided with an antibacterial and/or antioxidant function.

According to a preferred non-limiting embodiment, enclosure <NUM> defines and/or determines the shape of filter cartridge <NUM>.

According to a preferred non-limiting embodiment, spring element <NUM> (and bendable plate <NUM>) and/or first interaction element <NUM> are integral to enclosure <NUM>.

According to a preferred non-limiting embodiment, enclosure <NUM> comprises an internal space within which is arranged filter element <NUM>.

According to a preferred non-limiting embodiment, enclosure <NUM> comprises a plurality of respective lateral walls <NUM>, a base wall <NUM> and a cover wall <NUM>, in particular delimiting the internal space.

Preferentially but not necessarily, with filter cartridge <NUM> being arranged within filter housing <NUM>, base wall <NUM> is adjacent to and/or faces and/or contacts (an inner side of) base portion <NUM> and cover wall <NUM> is adjacent to and/or faces (an inner side) of cover portion <NUM>.

Preferentially but not necessarily, base wall <NUM> and/or cover wall <NUM>, in the particular case shown base wall <NUM>, is or are hinged to one respective lateral wall <NUM> so as to allow to access the internal space. In this way, it is possible to remove filter element <NUM> from enclosure <NUM> and to exchange an exhausted filter element <NUM> with a new one.

According to a preferred non-limiting embodiment, one respective lateral wall <NUM> carries and/or comprises spring element <NUM> and/or bendable plate <NUM>. Preferentially but not necessarily, spring element <NUM> and/or bendable plate <NUM> is integral to the respective lateral wall <NUM>.

Preferentially but not necessarily, spring element <NUM>, in particular bendable plate <NUM>, is defined and/or determined and/or obtained by providing for a recess <NUM> within the respective lateral wall <NUM>. In particular, recess <NUM> defines at least one free end <NUM> and one fixed end <NUM> of bendable plate <NUM>, the free end <NUM> being configured to interact with control element <NUM>. Even more particular, with filter cartridge <NUM> being arranged within filter housing <NUM>, control element <NUM> directs free end <NUM> into the internal space, thereby loading spring element <NUM> and/or bendable plate <NUM>.

It should be noted that the term "free" indicates that the respective portion (i.e. free end <NUM>) presents at least one degree of freedom (i.e. free end <NUM> is not fixed in space, but its position can change).

Preferentially but not necessarily, recess <NUM> is "U"-shaped.

According to a preferred non-limiting embodiment, first interaction element <NUM> is arranged at, in particular is integral to, and/or is connected to cover wall <NUM>. In particular, active portion <NUM> protrudes away from cover wall <NUM> (and from the internal space) when being arranged at the extracted position, and even more particular is at least partially arranged within the internal space when being moved to the retracted position.

According to a preferred non-limiting embodiment, first interaction element <NUM> is pivotable around a pivot axis and active portion <NUM> defines a free end of first interaction element <NUM>. In particular, the pivot axis is defined and/or determined at a conjunction of first interaction element <NUM> with cover wall <NUM>. In other words, first interaction element is hinged to cover wall <NUM>.

It should be noted that the term "free" indicates that the free end presents at least one degree of freedom (i.e. the free end is not fixed in space, but its position can change).

According to the non-limiting embodiment shown, cover wall <NUM> comprises an aperture <NUM> within which is arranged first interaction element <NUM>.

Preferentially but not necessarily, first interaction element <NUM> comprises a coupling portion <NUM> connected to cover wall <NUM>, in particular at a rim portion of aperture <NUM>. In particular, coupling portion <NUM> defines at least partially the pivot axis.

According to a preferred non-limiting embodiment, enclosure <NUM> also comprises a plurality of respective aeration holes <NUM> configured to allow for the aeration of the internal space. In particular, cover wall <NUM> and/or base wall <NUM> and/or lateral walls <NUM> comprise at least some of aeration holes <NUM>.

Preferentially but not necessarily, the aeration holes <NUM> provided on cover wall <NUM> and the aeration holes <NUM> provided on cover portion <NUM> are aligned with one another with filter cartridge <NUM> being arranged within filter housing <NUM>.

Preferentially but not necessarily, the aeration holes <NUM> provided on base wall <NUM> and the aeration holes <NUM> provided on base portion <NUM> are aligned with one another with filter cartridge <NUM> being arranged within filter housing <NUM>.

In use, filter cartridge <NUM> when being arranged within filter housing <NUM> is secured by the control device, in particular by first interaction element <NUM> and second interaction element <NUM> interacting with one another, even more particular by first engagement surface <NUM> abutting against second engagement surface <NUM>. Thus, an uncontrolled removal is avoided.

When a user activates unlocking device <NUM>, filter cartridge <NUM> is partially expelled from filter housing <NUM> so that the user can remove filter cartridge <NUM> afterwards. The expelling is obtained through the action of the expelling device, in particular spring element <NUM>, even more particular bendable plate <NUM>.

When a new filter cartridge <NUM> is introduced into filter housing <NUM> (through opening <NUM>) spring element <NUM>, in particular bendable plate <NUM>, is automatically loaded by interaction with control element <NUM> and first interaction element <NUM> and second interaction element <NUM> automatically interact within one another, in particular first engagement surface <NUM> and second engagement surface <NUM> automatically abut against one another. Thus, the user only needs to provide for the necessary force for introducing filter cartridge <NUM>.

The advantages of filter assembly <NUM> according to the present invention will be clear from the foregoing description.

Claim 1:
Air filter cartridge (<NUM>), for an air filter assembly (<NUM>) of a cooling domestic appliance, the filter assembly (<NUM>) having a filter housing (<NUM>) and the air filter cartridge (<NUM>), the air filter cartridge (<NUM>) being placeable within the filter housing (<NUM>) and comprising a spring element (<NUM>, <NUM>) configured to interact with a portion (<NUM>) of the filter housing (<NUM>), characterized in that the spring element is configured to exert an expelling force on the air filter cartridge (<NUM>) out of the filter housing (<NUM>) with the air filter cartridge (<NUM>) being placed within the filter housing (<NUM>) and wherein the air filter cartridge (<NUM>) further comprises a first interaction element (<NUM>) controllable into a locking position at which the first interaction element (<NUM>) is configured to interact with a second interaction element (<NUM>) of the filter housing (<NUM>) for blocking the air filter cartridge (<NUM>) within the filter housing (<NUM>) and/or for counter-acting against the expelling force and an unlocking position at which the interaction between the first interaction element (<NUM>) and wherein the second interaction element (<NUM>) is configured to be interrupted and/or released and/or loosened for allowing the expelling force to at least partially expel the the air filter cartridge (<NUM>) out of and/or from the filter housing (<NUM>).