Patent Description:
In the state of the prior art, numerous solid fuel stoves are provided. These stoves generally comprise a combustion chamber intended to house the solid fuel which, in use, supplies heat to the surrounding environment following its combustion.

Furthermore, are also provided stoves fed by solid fuel which comprise, in addition to a combustion chamber, also a cooking chamber or oven. Such stoves typically comprise a cooking chamber placed next to the combustion chamber in operative heat transfer with the combustion chamber itself.

Access to the cooking chamber is possible through a door that can be opened so as to allow the insertion of the food to be cooked, and closed so as to allow the actual cooking of the latter.

During use, it is not possible to access the cooking chamber because this cooking chamber can only be used as an oven.

The state of the prior art also comprises stoves fed by solid fuel which are equipped, above the combustion chamber, with a hob which receives the heat from the combustion chamber.

The hob can be used to cook food but, in general, it is not configured as a cooking chamber or oven. For this reason, the hob present in this type of stove cannot be used as a cooking oven.

The state of the prior art also envisages stoves fed by solid fuel which comprise a combustion chamber, a cooking chamber located alongside the combustion chamber, and a cooking surface, located above the combustion chamber, which receive the heat from the combustion chamber.

The cooking surface, as well as the cooking chamber, of these stoves does not provide for the possibility of varying the type and intensity of cooking to be obtained: the cooking chamber works like an oven only with the relative door closed and the hob works only as a hob receiving heat from underneath.

The cooking in these stoves is not very versatile for the preparation of foods that require regulation of the heat intensity and the type of cooking.

Moreover, the separation between the cooking chamber, which can be used as an oven, and the hob also entails an increase in the dimensions and a certain complexity of the stove.

Documents <CIT>, <CIT>, <CIT> and <CIT> describe stoves according to the state of the prior art which present the aforementioned problems.

The need is therefore felt for a stove fed with solid fuel which allows the disadvantages of the prior art listed above to be overcome.

The technical aim of the present invention is to improve the state of the prior art inherent to stoves fed with solid fuel.

Within the scope of this aim, an object of the present invention is to provide a stove fed with solid fuel which comprises a cooking chamber which can be used both as a cooking oven and as a hob with the possibility of adjusting the intensity and type of cooking.

Another object of the present invention is to provide a stove fed by solid fuel which comprises a hob and an oven with an opening and closing element equipped with an adjustment and control mechanism which allows to obtain an adjustable air flow, so as to be able to use different types of cooking for a given food.

Yet another object is to provide a stove fed with solid fuel which comprises an opening and closing element designed to minimize, when opened, its overall dimensions in the operating environment of the stove.

Finally, another object of the present invention is to provide a stove fed with solid fuel which allows a safe, simple and fast adjustment of the operating position of an opening and closing element.

This task and these objects are achieved by a stove fed, in use, with solid fuel according to claim <NUM>.

Other features and advantages of the invention will be more evident from the description of an example of embodiment of a solid fuel stove, illustrated by way of example in the accompanying drawings in which:.

In the accompanying drawings, identical parts or components are identified by the same reference numbers.

With reference to the attached figures, the numeral <NUM> indicates as a whole a stove fed, in use, with solid fuel according to a non-limiting example of embodiment of the present invention.

According to the present invention, the stove <NUM> can be fed, in use, with a solid fuel such as biomass, for example wood in pieces or pellets or the like, however, other types of solid fuels could also be used.

By biomass it is intended any biodegradable substance deriving from products, waste and/or residues of animal and/or vegetable biological origin deriving from agriculture, forestry and related industries, including fishing and aquaculture, cuttings and prunings deriving from public and private green areas, as well as any biodegradable substance deriving from industrial and urban waste.

As will be better understood later in the description, the stove <NUM> according to the present invention will allow a cooking chamber to be used both as a cooking oven and as a hob with adjustable air flow, through a simple and effective adjustment and control of an opening and closing element.

The stove <NUM> fed, in use, with solid fuel according to the present invention comprises a stove body <NUM> which includes or delimits a combustion chamber <NUM> and a cooking chamber <NUM> which, in use, receives heat from the combustion chamber <NUM>.

The combustion chamber <NUM> is provided to house the solid fuel, for example biomass such as wood, which is, in use, burned to supply heat to the cooking chamber <NUM>.

According to the embodiment illustrated in the figures, the stove <NUM> comprises a fume outlet <NUM> arranged in the upper wall of the stove body <NUM>, however, according to other embodiments not shown, the stove body <NUM> could comprise the fume outlet in a side or back wall.

The cooking chamber <NUM> comprises a bottom <NUM> and/or top wall and a plurality of perimeter walls 6a, 6b, 6c, 6d, for example two side walls 6a, 6b, a front, in use, wall 6c and a rear, in use, wall 6d, which define with the bottom and/or top wall <NUM> a cooking space CS inside the cooking chamber <NUM>.

In the embodiment illustrated in the figures, the cooking chamber <NUM> is included or delimited above the combustion chamber <NUM> to improve or facilitate, in use, the transfer of heat coming from the combustion chamber <NUM>.

The cooking chamber <NUM> comprises four perimeter walls 6a, 6b, 6c, 6d, of which two side walls 6a, 6b, a front, in use, wall 6c and a rear, in use, wall 6d as well as a bottom wall <NUM>, which define the cooking space CS inside the cooking chamber <NUM>.

According to other non-limiting examples of embodiment of the present invention, the cooking chamber <NUM> could comprise three perimeter walls 6a, 6b, 6c, a bottom wall <NUM> and a top wall.

The cooking chamber <NUM> also comprises an opening and closing element <NUM> movable or rotatable between an open operating position OP, in which it delimits with the bottom <NUM> and/or top wall and with the plurality of perimeter walls 6a, 6b, 6c , 6d a first opening FO for accessing the cooking space CS, at least one partially open operating position PP, in which it delimits with the bottom and/or top wall <NUM> and with the plurality of perimeter walls 6a, 6b, 6c, 6d a second opening SO for accessing the cooking space CS or, in use, of heat escaping from the cooking space CS, where the second opening SO is spatially lower than the first opening FO, and a closed operating position CP, in which it closes or blocks access to or, in use, prevents heat from escaping from the cooking space CS.

According to the figures, the opening and closing element <NUM> is hinged to the cooking chamber <NUM> and, therefore, has a rotary movement.

In other non-limiting examples of embodiment of the present invention, the opening and closing element <NUM> could be movable in forward and backward translation along a displacement axis parallel to the side walls 6a, 6b, for example by means of suitable displacement means, such as shoes or wheels, operatively associated with suitable guide means, such as parallel sliding guides mounted on the side walls 6a, 6b of the cooking chamber <NUM>.

With reference to wording "spatially inferior", the spatial dimension of the openings FO, SO or other openings which are delimited in the event of a rotation of the opening and closing element <NUM> are to be understood as measured by the length of the circumference arc defined by the rotation of the front free end FE of the opening and closing element <NUM> from the closed operating position CP to the open OP or partially open operating position PP considered.

On the other hand, in the case of a translational movement of the opening and closing element <NUM>, the spatial dimension of the openings delimited by the latter can normally be evaluated, for example as the area enclosed by the delimiting surface of the opening considered.

More in detail, the stove <NUM> according to the present invention comprises at least one adjustment and control mechanism <NUM> configured to adjust and control the operating position OP, PP, CP of the opening and closing element <NUM> so that the cooking chamber <NUM> is, in use, employable, when the opening and closing element <NUM> is in the closed operating position CP, as a cooking oven while when the opening and closing element <NUM> is in the open operating position OP or in the at least one partially open operating position PP as a hob with adjustable airflow.

The stove <NUM> comprises a cooking chamber <NUM> which, depending on the operating position of the opening and closing element <NUM>, can assume various functions, i.e. it can be used as a cooking oven when the opening and closing element <NUM> is in the position closed operating position CP, and eventually semi-closed (not shown), while it can be used as a hob with adjustable air flow when the opening and closing element <NUM> is in the open OP or partially open operating position PP.

By hob with adjustable air flow it is intended a hob whose quantity of air, and consequently the cooling of the hob itself, can be adjusted simply by changing the operating position of the opening and closing element <NUM>.

Thus, for example, by moving or rotating the opening and closing element <NUM> from the open operating position OP towards the closed operating position CP, it is possible to obtain at least one partially open operating position PP, and also a series of partially open operating positions PP which delimit the access openings to the cooking space CS and the heat escaping from the cooking space CS progressively spatially decreasing with each other.

In this regard, the adjustment of the operating position of the opening and closing element <NUM> by means of the adjustment and control mechanism <NUM> allows to adjust and control the flow of cooling air towards the cooking chamber <NUM> and/or the bottom wall <NUM> so as to have a wide range of cooking types and temperatures required, for example, for a given food.

The adjustment and control mechanism <NUM> comprises a first member <NUM>, operatively connected with the opening and closing element <NUM> or with the cooking chamber <NUM>, which comprises or defines a sliding slot or groove <NUM> and a second member <NUM>, operatively connected with the cooking chamber <NUM> or with the opening and closing element <NUM>, which comprises or defines a protruding element <NUM> slidably engaged with the sliding slot or groove <NUM>.

According to the non-limiting example of embodiment of the present invention shown in the figures, the first member <NUM> is operatively connected, for example pivoted, to the opening and closing element <NUM> and includes or delimits a sliding slot or groove <NUM> while the second member <NUM> is operatively connected, for example fixed, to the cooking chamber <NUM>, possibly with one of its perimeter walls 6a, and comprises or defines a protruding element <NUM> slidably engaged with the sliding slot or groove <NUM>.

In other examples of embodiment of the present invention, the first member <NUM> could be operatively connected, for example pivoted, to the cooking chamber <NUM>, possibly with one of its perimeter walls 6a, and could either include or delimit a sliding slot or groove <NUM> while the second member <NUM> could be operatively connected, for example fixed, to the opening and closing element <NUM>, and could either comprise or define a protruding element <NUM> slidably engaged with the sliding slot or groove <NUM>.

Possibly, the stove <NUM> can also comprise a connection component <NUM>, for example L-shaped, including a first terminal portion T1 and a second terminal portion T2, preferably fixed, in its first terminal portion Tl, with the opening and closing element <NUM> and operatively connected, for example pivoted, in its second terminal portion T2 with the first member <NUM>.

Basically, the connection component <NUM>, if present, acts as a connection between the first member <NUM> and the opening and closing element <NUM>.

From a functional point of view and according to the non-limiting example of embodiment shown in the figures, when the opening and closing element <NUM> is moved by the user, the sliding slot or groove <NUM> can slide on the protruding element <NUM> engaged in it to adjust and control the operating position OP, PP, CP of the opening and closing element <NUM>.

It should be noted that if the protruding element <NUM> were fixed to the opening and closing element <NUM> while the sliding slot or groove <NUM> was hinged to the cooking chamber <NUM>, possibly with one of its perimeter walls 6a, as described in the other non-limiting example of embodiment of the present invention mentioned above, would be the protruding element <NUM> to slide in the sliding slot or groove <NUM>.

From a structural point of view, the sliding slot or groove <NUM> can advantageously comprise two flanks F1, F2, a first end E1, a second end E2 distal to the first end E1, and one or more hollowed portions 10a configured to allow the opening and closing element <NUM> to be locked in at least one of the operating positions OP, PP, CP.

In particular, at least one of the one or more hollowed portions 10a is delimited at or near the first or second end E1, E2.

Moreover, at least one of the one or more hollowed portions 10a, preferably each of the one or more hollowed portions 10a, can advantageously comprise at least one section 10a1 whose development direction forms an acute angle with the development direction of the flank F1, F2 or of the portion of the flank F1, F2 adjacent to this section 10a1. This conformation makes it easier to lock the opening and closing element <NUM> in at least one of the operating positions OP, PP, CP.

According to the non-limiting example of embodiment of the present invention shown in the figures, a hollowed portion 10a is delimited at the first end E1 to allow locking of the opening and closing element in the open operating position OP.

Preferably, the one or more hollowed portions 10a is/are formed in at least one of the flanks F1, F2 of the sliding slot or groove <NUM>.

Alternatively, for example in the case in which the opening and closing element <NUM> could be moved in forward and backward translation along an axis of movement parallel to the side walls 6a, 6b, the one or more hollowed portions 10a can/could be obtained on a possible bottom included or delimited in the sliding slot or groove <NUM>.

Possibly, the protruding element <NUM> can be slidably engaged in the sliding slot or groove <NUM>, for example by coupling with a certain interference, so that, when the opening and closing element <NUM> is in at least a partially open operating position PP, the protruding element <NUM> remains stationary or blocked, for example by friction, in the sliding slot or groove <NUM>, possibly in a hollowed portion 10a thereof, to keep the opening and closing element <NUM> stationary or blocked in this partially open operating position PP.

To facilitate this continuous movement, the opening and closing element <NUM> can be counterbalanced by means of weights or a spring mechanism.

In other words, the opening and closing element <NUM> can be stopped or locked in an intermediate operating position PP and/or in the open operating position OP by fitting the protruding element <NUM> into a respective hollowed portion 10a of the sliding slot or groove <NUM> while, in at least another non-limiting example of embodiment of the present invention, the opening and closing element <NUM> can be stopped or locked in at least one intermediate operating position PP and/or in the open operating position OP by friction by means of the protruding element <NUM> slidingly engaged through an interference fit with the sliding slot or groove <NUM>, and therefore without the actual engagement in a respective hollowed portion 10a.

Furthermore, the opening and closing element <NUM> is configured to minimize its overall dimensions with respect to the operating environment of the stove <NUM>, for example with respect to the stove body <NUM>.

In this regard, the opening and closing element <NUM> can be moved between the various operating positions OP, PP, CP while remaining within the perimeter delimited by the stove body <NUM>. This can be achieved, for example, through a rotating movement of the opening and closing element <NUM>.

In particular, the opening and closing element <NUM> can be hinged to the cooking chamber <NUM>, for example to its side walls 6a, 6b, so that following its movement between the various operating positions OP, PP, CP, it remains confined within the perimeter delimited by the stove body <NUM>, also avoiding interfering with the fume outlet <NUM>, if present, included in the upper wall of the stove body <NUM>.

In this regard, the aforementioned constructive feature allows eliminating any lateral bulk exceeding the perimeter of the stove body <NUM> and, at the same time, allows the functionality of any fume outlet <NUM> to be maintained unaltered, if present, for example positioned at the rear with respect to the cooking chamber <NUM>.

It should be noted that, depending on the number of partially open operating positions PP to be created for the opening and closing element <NUM>, it is possible to provide a sliding slot or groove <NUM> which has a hollowed portion 10a for each partially open operating position PP.

In the non-limiting example of embodiment of the present invention shown in the figures, a hollowed portion 10a is provided to stop or block the protruding element <NUM> and, therefore, the opening and closing element <NUM> in the open operating position OP and another hollowed portion 10a to stop or block the protruding element <NUM> and, therefore, the opening and closing element <NUM> in a partially open operating position PP.

Thus, for example, in other non-limiting examples of embodiment of the present invention, two, three or more hollowed portions 10a could also be provided in the sliding slot or groove <NUM>, each corresponding to a respective partially open operating position PP of the opening and closing element <NUM> and, according to yet another example not shown, the hollowed portions of the first member <NUM> could be made in the form of a saw tooth.

The stove <NUM> according to the present invention also preferably comprises removable handling means <NUM> configured to be operatively connected to the opening and closing element <NUM> if it is necessary to adjust the operative position OP, PP, CP of the latter, and operatively disconnected from the opening and closing element <NUM> once the adjustment of its operating position OP, PP, CP has been completed.

Basically, there are preferably handling means <NUM> of the opening and closing element <NUM> which can be operatively connected to it, for example when the user wants to change the operating position OP, PP, CP of the same, and then be disconnected from the latter, once the change of the operating position OP, PP, CP has been completed. In this way, the removable handling means <NUM> avoid heating up when the user is using the cooking chamber <NUM> as a cooking oven or as a hob with adjustable air flow while they can be used in case of need to change operating position OP, PP, CP of the opening and closing element <NUM> without thus risking accidental burns.

Structurally, the removable handling means <NUM> can comprise at least one constraint component <NUM> which includes or delimits at least one handle element or portion 14a, for example a knob, configured to be gripped by a user to move the opening and closing element <NUM> and at least one connecting element or portion 14b configured to be removably connected with the opening and closing element <NUM>.

Moreover, the stove <NUM> can also comprise coupling means <NUM> operatively connected to the opening and closing element <NUM>, configured to allow the removable coupling of the handling means <NUM>.

Preferably, the coupling means <NUM> comprises a support element <NUM> which defines at least one insertion opening EO and connection means <NUM> inserted in the at least one insertion opening EO to connect the support element <NUM> with the opening element and closing <NUM>.

Optionally, the support element <NUM> comprises or delimits a central portion 16a and the at least one insertion opening EO is delimited at or around the central portion 16a.

Advantageously, the support element <NUM> defines with the opening and closing element <NUM> a coupling compartment CC for the removable handling means <NUM> or, more particularly, for the constraint component <NUM>.

According to the non-limiting example of embodiment of the present invention shown in the figures, the support element <NUM> comprises a plate <NUM> spaced from and connected to the opening and closing element <NUM> by one or more nails <NUM>, screws or the like.

Moreover, the connecting element or portion 14b preferably comprises a first prong 14b1 and a second prong 14b2 which define between them an engagement or insertion space ES for the coupling means <NUM> or, more particularly, for the connection means <NUM> of these coupling means <NUM>.

From a functional point of view, it is possible to operatively connect the constraint component <NUM> with the coupling means <NUM> by engaging the connecting element or portion 14b with the connection means <NUM> in the coupling compartment CC.

In more detail, it is possible to engage the connection means <NUM> in the engagement or insertion space ES defined by the first and second prongs 14b1, 14b2 which will be supported by the support element <NUM>.

The stove <NUM> can include signaling means <NUM> provided for signaling the connection point or zone CZ of the handling means <NUM> which can be removed with the opening and closing element <NUM> or, more specifically, with the coupling means <NUM>.

According to the non-limiting example of embodiment of the present invention shown in the figures, the signaling means <NUM> are or comprise a reference notch defined on the stove body <NUM> or, more particularly, on the cooking chamber <NUM>.

Possibly, the stove <NUM> can also comprise measuring and displaying means <NUM> of the temperature of the cooking chamber <NUM>.

According to the non-limiting example of embodiment of the present invention shown in the figures, the measuring and displaying means <NUM> of the temperature of the cooking chamber <NUM> are or comprise a dial thermometer.

As regards the cooking chamber <NUM>, it preferably comprises at least one cooking plate <NUM> housed or positioned in at least one housing or positioning area HA delimited on the bottom <NUM> and/or top wall.

This at least one cooking plate <NUM> can be used for positioning and subsequently cooking food and can have a circular, square, rectangular, etc. plan configuration.

Moreover, the cooking chamber <NUM> can advantageously comprise or define at least one main positioning seat MPS for the coupling means <NUM> so that when the opening and closing element <NUM> is in the closed operating position CP, the coupling means <NUM> are positioned in the at least one main positioning seat MPS and the opening and closing element <NUM> is capable of closing or blocking access to or, in use, preventing heat from escaping from the cooking space CS.

According to the non-limiting example of embodiment of the present invention shown in the figures, the at least one main positioning seat MPS is a depression formed on the stove body <NUM> or, more particularly, on at least one perimeter wall, for example a side wall 6a, 6b of the cooking chamber <NUM>.

Since the coupling means <NUM> have a certain thickness and are connected to the opening and closing element <NUM>, the presence of the at least one main positioning seat MPS or, more particularly, of the depression, allows to obtain an optimal closure from the hermetic point of view of the opening and closing element <NUM>.

Optionally, the at least one main positioning seat MPS can, in turn, comprise or define at least one secondary positioning area SPS provided for housing the connection means <NUM> or, more particularly, the head portion included therein or thereof, when the opening and closing element <NUM> is in the closed operating position CP.

According to the non-limiting example of embodiment of the present invention shown in the figures, the at least one secondary positioning seat SPS is a depression formed in the main positioning seat MPS.

Preferably, the stove <NUM> also comprises protection means <NUM> configured to protect the user from any accidental contact with the cooking chamber <NUM>.

In this regard, the protection means <NUM> comprise or preferably define at least one housing compartment HC for the removable handling means <NUM> so that the latter can be housed, when not in use, in the at least one housing compartment HC.

Basically, the protection means <NUM> can be used not only to protect the user from accidental contact with the cooking chamber <NUM>, but also to house the removable handling means <NUM> or, more particularly, the constraint component <NUM> when it is not in use.

According to the non-limiting example of embodiment of the present invention shown in the figures, the protection means <NUM> are a handrail tube connected to the cooking chamber <NUM>, at the outer surface of its front, in use, part 6c which comprises two ends at which a respective housing compartment HC is defined for the constraint component <NUM>.

A non-limiting example of operation of the stove <NUM> is described below according to the non-limiting example of embodiment shown in the figures.

The user places the solid fuel, for example wood, inside the combustion chamber <NUM> and starts the combustion of the solid fuel.

Heat is therefore generated in the combustion chamber <NUM>, which is also transferred to the cooking chamber <NUM> which can, therefore, begin to heat up.

Assuming that the opening and closing element <NUM> is in the closed operating position CP and that the user wishes to change this operating position, the latter can take the constraint component <NUM> positioned in the housing compartment HC of the protection means <NUM>, identify the signaling means <NUM> of the connection point or zone CZ of the constraint component <NUM> with the opening and closing element <NUM>, and engage, in the coupling compartment CC, the constraint component <NUM> with the connection means <NUM>.

It is therefore possible for the user, by applying a given opening force on the handle element or portion 14a of the constraint component <NUM>, to rotate the opening and closing element <NUM>, for example, towards the open operating position OP.

In particular, the rotation of the opening and closing element <NUM> is allowed by the adjustment and control mechanism <NUM>.

In more detail, the first member <NUM> which defines the sliding slot or groove <NUM>, being pivoted with the opening and closing element <NUM>, can slide on the protruding element <NUM> fixed on the side wall 6a of the cooking chamber <NUM>, until the latter is not blocked in the hollowed portion 10a and is therefore able to support the opening and closing element in the open operating position OP.

Wishing to bring the opening and closing element <NUM> to a partially open operating position PP, for example to increase the temperature of the cooking chamber <NUM> by decreasing the air flow therein, the user can apply a certain closing force on the handle element or portion 14a of the constraint component <NUM>. Upon reaching the partially open operating position PP, the protruding element <NUM>, slidably engaged with the sliding slot or groove <NUM>, is stopped or blocked in the hollowed portion 10a for support the opening and closing element <NUM> in this operating position.

In the case of a sliding slot or groove <NUM> having a single hollowed portion 10a corresponding, for example, to an open operating position OP, for locking the protruding element <NUM> in at least a partially open operating position PP, can be provided a coupling with a certain interference of the protruding element <NUM> with the sliding slot or groove <NUM> and its consequent locking by friction once the partially open operating position PP of interest has been reached and once the closing force of the user on the opening and closing element <NUM> has ceased, the latter can be counterbalanced by means of weights or a spring mechanism to help maintain the various operating positions.

Subsequently, wishing to return the opening and closing element <NUM> to the closed operating position CP, the user can go back to applying a certain closing force on the handle element or portion 14a of the constraint component <NUM> until the closed operating position CP is reached.

It should be noted that, both for the transition from the open operating position OP to the partially open operating position PP, and for the transition from the partially open operating position PP to the closed operating position CP, it is preferable that the user first applies an opening force on the opening and closing element <NUM> to release the protruding element <NUM> from the hollowed portion 10a in which it is blocked, and subsequently applies a closing force for the effective transition to the operating position.

Once the adjustment of the operating position OP, PP, CP of the opening and closing element <NUM> has been completed, the user can disconnect the constraint component <NUM> from the coupling means <NUM> or, more particularly, from the connection means <NUM> and reposition it inside the housing compartment HC of the protection means <NUM> so as to avoid overheating of the same so as to be able to reuse it safely when desired.

The stove <NUM> according to the present invention comprises a cooking chamber <NUM> which can be used both as a cooking oven and as a hob with adjustable air flow by varying the position of the opening and closing element <NUM>.

To make this functionality possible, the stove <NUM> according to the present invention comprises the regulation and control mechanism <NUM> of the opening and closing element <NUM> which allows to obtain a hob with adjustable air flow, so as to be able to use different types of cooking for a given food.

Moreover, the adjustment mechanism <NUM> allows a safe, simple and fast adjustment of the operating position OP, PP, CP of the opening and closing element.

Furthermore, according to preferred but non-limiting examples of embodiment of the present invention, further technical arrangements are provided which are useful for adjusting the operating position OP, PP, CP of the opening and closing element <NUM> in safety, with versatility, speed and simplicity, thus being able to exploit the most of the cooking chamber <NUM> in its multiple functions, for example as a cooking oven or as a hob with adjustable air flow.

It has thus been seen how the invention fully achieves the proposed objects.

Claim 1:
Solid fuel stove (<NUM>) comprising a stove body (<NUM>) which includes or defines a combustion chamber (<NUM>) and a cooking chamber (<NUM>) which, in use, receives heat from said combustion chamber (<NUM>), said cooking chamber (<NUM>) comprising a bottom wall (<NUM>) and/or a top wall, a plurality of perimeter walls (6a, 6b, 6c, 6d) which define with said bottom wall (<NUM>) and/or top wall a cooking space (CS) inside said cooking chamber (<NUM>), and an opening and closing element (<NUM>) movable or rotatable between:
an open operating position (OP), in which it defines a first opening (FO) for accessing said cooking space (CS),
at least one partially open operating position (PP), in which it defines with said bottom wall (<NUM>) and/or top wall and with said plurality of perimeter walls (6a, 6b, 6c, 6d) a second opening (SO) for accessing said cooking space (CS) or, in use, of heat escaping from said cooking space (CS), said second opening (SO) being spatially smaller than said first opening (FO), and
a closed operating position (CP), in which it closes or blocks access to or, in use, prevents heat from escaping from said cooking space (CS),
characterized by the fact that it comprises
at least one adjustment and control mechanism (<NUM>) configured to adjust and control the operating position (OP, PP, CP) of said opening and closing element (<NUM>) so that said cooking chamber (<NUM>) is, in use, employable, when said opening and closing element (<NUM>) is in said closed operating position (CP), as a cooking oven while when said opening and closing element (<NUM>) is in said open operating position (OP) or in said at least one partially open operating position (PP) as a hob with adjustable airflow.