FR2912302A1 - DEVICE FOR REGULATING THE WATER LEVEL OF A HEATING CAVITY OF AN ELECTRICAL APPLIANCE - Google Patents

Abstract

The present invention relates to a device for automatic regulation of the water level in a heated or heated cavity (60) of a household appliance, said cavity (60) having a ventilation connection with the outside of the appliance, said device comprising an airtight water tank (40) in its upper part, in removable connection with a container, the tank having a water filling opening in the upper part and an opening in the lower part of passage of water to the container made by a conduit, characterized in that the conduit opens at a level n in the container, the latter having a connection with the outside of the appliance, the container having, under the level n, an opening (26) of water flow to the heating cavity (60), and that the level n is a defined filling level of the heating cavity (60).

Description

.08372 DEVICE FOR REGULATING THE WATER LEVEL OF A HEATING CAVITY

  The invention relates to the field of household appliances for cooking with steam, and in particular in the field of ovens. It is more particularly a device for automatic regulation of the water level of a heating cavity disposed in the cooking chamber. It is known in the field of household electric furnaces, steam generating devices via an evaporation pot disposed at the hearth of the furnace. EP 0277337 shows an oven equipped with such a device, the oven further comprising a water tank for feeding the pot with a solenoid valve and a non-return valve. In addition, the evaporation pot has a clean heating element. Overall, the device is complex and above all relatively expensive, requiring an electronic control card. Document FR 2398433 shows a removable water tank for a steam oven comprising a spring-mounted valve making it possible to seal the tank when it is removed from the furnace for filling with water, a part corresponding to the furnace to open the valve against the return force of the spring. The valve, connected to the reservoir, is disposed in the furnace enclosure, so that removing the reservoir from the furnace for filling requires a specific passage in the wall of the furnace to allow removal of the valve. In addition, said valve, placed in the cooking chamber, is subjected to the vaporization temperature of the water and is soiled by the cooking environment and therefore by the food, which can generate problems of bacterial proliferation. Moreover, filling the tank is inconvenient since it is necessary to remove the valve to access the inside of the tank. The present invention aims to overcome the disadvantages mentioned above and to provide a simple device for making and using. The present invention is achieved by means of a device for automatic regulation of the water level in a heated or heated cavity of a household appliance, said cavity having a ventilation connection with the outside of the appliance, said device comprising an airtight water tank in its upper part, in detachable connection with a container, the tank having a water filling opening in the upper part, and an opening in the lower part of the water passage. water to the container made by a conduit, characterized in that the conduit opens at a level n in the container, the latter having a connection with the outside of the appliance, the container having, below the level n , a water flow opening to the heating cavity, and in that the level n is a defined filling level of the heating cavity. The present invention thus proposes a removable water reservoir of a container in communication with the water evaporation cavity, having the particularity of not being in direct connection with the heating cavity, which has various advantages, in particular that of reducing the contamination by the cooking environment, while offering the possibility of remaining in a cold zone. The connection between the reservoir and the heating cavity is performed by a container, this part being at the same pressure as that of the heating cavity, thus allowing a balancing of the levels between the two compartments. This balancing of the levels, which corresponds to the desired water level in the cavity, can only be achieved by having a sealed reservoir, in particular in the air, except the opening for the passage of water to the container, and by a judicious arrangement of the end of the conduit connecting the tank to the container.

  In this way, as soon as the level drops in the cavity, this water is automatically replaced by water coming from the reservoir. This self-regulating constant level system uses gravity for the transfer of water. Like the bird trough systems, the water level stabilizes when the air can no longer communicate from the container to the interior of the tank to replace the water that arrives in said cavity. Such automatic regulation is simple to implement and requires no electronic device. Advantageously, the reservoir comprises means for closing off the water passage opening in the lower part when the reservoir is no longer connected with the receptacle, in order to allow the reservoir to be filled when the latter is not completely empty, without water leak. In order to reduce the bulk of the device, the container forms part of a support of the reservoir, the reservoir being removable from said support. According to a preferred embodiment of the invention, the closure means consist of a part arranged in the reservoir and comprising actuating rods that may be in relation with two ramps secured to the support, one of the ramps acting or allowing to act on at least one of the actuating rods to move the piece in the closed position of the opening for the passage of water from the reservoir to the container when the reservoir is withdrawn out of the support, the other ramp acting or allowing to act on at least one of the actuating bars to move, during the insertion of the reservoir into the support, the piece in an open position of the passage of the water to the container. This embodiment of the invention makes it possible to realize an additional functionality of comfort of use, remaining with mechanical means, without the use of electronics, in order to present an economical alternative to current systems. According to one of the preferred embodiments of the invention, the opening for the passage of water from the reservoir to the receptacle is delimited by a vertical guide comprising at least one orifice for the passage of water over a portion of its mouth. base, the shutter member being a hollow piston, being able to slide in a watertight and airtight manner in the guide under the effect of the cooperation between the piston actuating rods and the ramps of the support, the piston having an opening in the lower part, and at least one hole on a part of its periphery, substantially halfway up, said hole being capable of either communicating with the water passage orifice of the guide, or to be isolated from said 3 orifice, depending on the position of the piston. The piston sliding in a guide to allow or not the fluid connection between the reservoir and the container is similar to the operation of a valve-drawer, the control being entirely mechanical. Such an arrangement is of simple design. Such a design allows in particular to arrange the actuator bars under the tank, said bars being an extension of the piston, which keeps a compact device. Advantageously, the piston constitutes the conduit linking the reservoir to the container, the opening at the bottom of the piston opening at the level n of the container, constituted by a lower zone of the support closed by the reservoir and having a ventilation connection with the outside, said zone comprising the water flow opening of the container towards the heating cavity. Such an arrangement simplifies the design by limiting the number of parts. According to an advantageous embodiment of the invention, the reservoir comprises a handle and is removable from the support by substantially horizontal sliding, facilitating the filling and cleaning operations. According to one aspect of the invention, the two ramps of the support form a slideway on at least one of its sliding walls, advantageously one of the side walls, said slide being inclined at an angle relative to to the sliding direction of the tank. This configuration makes it possible, by the sliding movement of the reservoir relative to the support, to carry out a translation or rotation movement of the piston so that the latter has the two previously mentioned opening and closing positions. Advantageously, the two lateral walls of the support each carry a slideway with which the piston actuation rods cooperate, thus ensuring a safer displacement of said piston. Advantageously, in order to ensure a water and airtight sliding of the piston in the reservoir guide, the piston guide is tubular, the piston being cylindrical and comprising at least three peripheral sealing seals bearing on the inside of the tubular guide, two of these joints being disposed on either side of the hole formed on a portion of the periphery of the piston, the third being disposed in the lower part of the piston. This configuration only allows the entry of air through the inside of the piston when it is out of the closed position.

  Advantageously, the tank has a lid with a guide of the upper part of the piston, to limit the risk of jamming of the piston. According to this configuration, the water filler opening of the tank is closed by a removable cap, said cap and the lid sealing with the inside of the tank when set up. Such an arrangement makes it possible to maintain a good air tightness of the reservoir, where only the piston makes it possible to form a fluid connection with the container, when the lid and the removable cap of the water filling opening are put in place. .

  Moreover, similarly to guiding the lower part of the piston, the guide formed in the cover is preferably tubular, the piston sliding in a watertight and airtight manner in said guide via a peripheral seal. According to a complementary aspect of the invention, the guide formed in the cover has at least one opening such that the seal of the piston with said guide is below said opening when the piston is in the position of passage of the water from the reservoir to the support, and is above this opening when the piston is in the closed position of said water passage.

  The present invention also relates to a household appliance comprising a device for automatically regulating the water level in a heating cavity according to one of the characteristics mentioned above, and more particularly to an electric household oven where the heating cavity represents the sole of said oven.

  Advantageously, the tank support is placed outside the enclosure of the oven, in a cold zone, to avoid any risk of deformation and malfunction due to heating. According to a preferred embodiment of the invention in this type of apparatus, the tank support is open at the front face of the oven, the reservoir 10 then sliding horizontally from the rear to the front of the oven. The manner of carrying out the invention as well as the advantages which result therefrom, will emerge from the description of the embodiment which follows, given by way of indication and not by way of limitation, in support of the appended figures in which: FIG. diagram illustrating the principle of the invention. Figure 2 is a perspective view of an oven equipped with the present invention. Figure 3 is a perspective view of the water supply device according to the invention. Figure 4 shows this feeder in an exploded view. Figure 5 is a partial sectional view of part of the device. Figure 6 is a dive top view of some elements of the device. Figure 7 is a perspective view of a detail of the device. Figure 8 is a top view of the device where some elements have been omitted. Figure 9 is a longitudinal section along A-A of Figure 8. Figure 10 is a partial section of some elements of the device along the longitudinal and transverse axes of the main parts. Figure 11 is also a partial section of the device similar to Figure 10, where other elements have been shown. Figure 12 shows a detail of a cross-section of some elements of the device. Figures 13, 14 and 15 are views similar to the respective views of Figures 10, 11 and 12, where some elements are in a different position of operation.

  Figures 16a and 17a are views respectively in perspective and in longitudinal section of a detail of the device in an operating position. Figures 16b and 17b are perspective and sectional views of a detail of the device, similar to Figures 16a and 17a, in another operating position. Figure 18 is a top view of the device according to the invention. Figure 19 is a cross-sectional view along B-B of Figure 18. As previously mentioned, the present invention relates to a device for supplying water to a heating cavity. Figure 1 schematically illustrates the operation of the device. Thus, the invention relates to a tank 100 in connection with a tank 110 through an opening 102, the tank being removable relative to the tank. Apart from the opening 102, the tank is airtight, while the tank 110 has an opening 112 to the outside. This tank 110 is connected to an evaporator 120 through an opening 116 and a conduit 118. The evaporator 120 also has an outward connection. The two containers 110 and 120 being at the same pressure, the water level equilibrates, essentially by passing water from the tank 110 to the evaporator 120. According to the invention, a conduit 104 connects the reservoir 100 and the tank 110, this duct penetrating into the tank 110 25 to a level n located above the duct 118. Thus, when the tank 100 is connected to the tank 110, water flows from the tank to the tank 110. tank until the water reaches the level n in the tank and in the evaporator, in which case the air can no longer replace, in the tank 100, the water flowing from said tank. This level n corresponds to the desired optimum water level in the evaporator. It is the same when the water evaporates from the evaporator, causing a lowering of the level n, which causes an air inlet through the end 114 of the conduit 104 allowing a water inlet in the tank 110 and therefore in the evaporator. The device thus performs an automatic regulation of the water level in the evaporator. The following illustration of this invention and the implementation of the principle which has just been described relates to an electric household appliance 1 as shown in FIG. 2. Such an oven comprises a door 2 actuated by a handle 4 allowing the Access to a cooking chamber 6. Various control buttons 8 allow in particular an adjustment of the temperature and the cooking time. Other functions may be associated with these control members, such as, for example, the selection of a particular mode of operation of the oven. According to the invention, the furnace comprises a device 10 for supplying water to a heating cavity, enabling steam to be created in the cooking chamber 6. Such a device is shown in FIG. 3. According to the exemplary embodiment, the heating cavity 60 is the hearth of the furnace and comprises a low pressure zone 62, having a large surface and a shallow depth, allowing the reception and the vaporization of the water coming from the supply device 10.

  Furthermore, the sole, preferably metal and protected against corrosion, comprises an underlying heating element. It thus constitutes the evaporator presented in the introduction of the invention. The water supply device of the heating cavity 60 is connected to said cavity by a duct 12.

  FIG. 4 shows an exploded view of the device which comprises a support 20 of parallelepipedal shape, open in front part 22 and whose upper part is closed by a flat piece 24 coming, by clipping, to be fixed on said support. The front portion 22, bordered by a frame 36, is wider than the rear portion, having a notch 37.

  In the lower part of the support is provided an opening 26 in connection with the conduit 12. The internal configuration of the support 20 comprises lateral flanges 28, these flanges being substantially horizontal, and two slides 30 arranged vis-a-vis on the walls side of the support, under the flanges 28, over a significant length of said support, or about at least half the length of said support. These slides are composed of an upper ramp 301 and a lower ramp 302, the groove thus formed between the two ramps being connected, in the rear part, with a stop made by a vertical recess 32 of the underside of the support. This lower face comprises, at the front, a flat portion 34, extended rearwardly by a downwardly inclined wall 204, to a detachable recess, through the substantially horizontal wall 202, a lower region 206 forming a bowl. In this zone is the opening 26. With reference to FIG. 1, this zone 206 can be likened to the container 110. As it is clearly visible in FIG. 3, the slide is inclined with respect to the horizontal of a angle a close to 4, the lower part of the slide being located towards the rear of the support, in the zone 206. Furthermore, the lower ramp 302 opens, in front, on the flat portion 34 forming a frame. At the opening 26, the lower ramp 302 has a recess which follows the curvature of the opening 26, this recess being necessary for demolding the part during its production of plastic. However, the corresponding ramp located on the opposite side wall of the support does not have such a recess. The device also comprises an airtight water tank 40 assembled to be slidably disposed in the support 20. Its shape is therefore substantially parallelepipedal, adapted to the inner shape of the support 20. The reservoir 40 thus comprises a recess 48 to be positioned on the inner edges 28 of the support for sliding said tank.

  The upper part of the tank is closed by a welded lid 42, as can be seen in FIG. 15, having a filling orifice 44 closed in an airtight manner by a plug 46. A recess 47 of the lid 42 makes it easy to slide the fingers to grab the bung.

  Alternatively, to facilitate the cleaning of the tank, it can be provided a removable cover assembled on the tank with screws or clips, using a seal over the entire periphery of the lid to ensure the necessary seal. The filling orifice is then no longer indispensable. The lid 42 also comprises a vertical tubular guide 420 oriented towards the inside of the tank, the function of which will be explained later. This guide comprises two indentations 422 at its end, diametrically opposite. Furthermore, the tank 40 has an opening 400 on its bottom wall, this opening being delimited, inside the tank, by a guide 430, similar in shape to the guide 42C), as shown in FIG. guide also comprises two notches 432 formed at its base and allowing a connection with the interior of said guide, and therefore with the opening 400, said notches being oriented towards the front and towards the rear of the tank. The front face 50 of the reservoir 40 comprises a gripping handle 52, said face being able to bear against the frame 34 of the support 20. Likewise for the support 20, the front part of the reservoir 40 comprises a notch 54, capable of cooperating with the notch 37 of the support. According to the invention, the device comprises a piston 70, inserted by the lower face of the reservoir 40 in the guide 430. This piston is presented in more detail in FIG. 7. With reference to FIG. 1, the piston 70 represents the conduit 104. This piston is thus composed of a cylinder 702 hollow, open at both ends, and can therefore slide in the guide 430. At the base of the cylinder, are arranged actuating bars in the form of two sliders 704 radials arranged opposite each other. These sliders 704 are of tubular shape and are capable of cooperating with the slides 30 of the support 20. They are therefore perpendicular to the side faces of the tank when the piston is inserted into said tank. In addition, as shown in particular in Figure 11, the sliders 704 are 5 disposed below the lower part of the tank 40, two arches 56 formed at this level, under the tank, for guiding said sliders. Furthermore, two indentations 706 are made on the cylinder of the piston at the sliders, at the end of the cylinder, that is to say under the reservoir 40, these windows being diametrically opposed and oriented towards the front and the rear of the tank when the piston is inserted into said tank. Two other openings 708 are made substantially at mid-height of the cylinder, these openings also being diametrically opposite and located vertically from the notches 706. These openings are thus offset by an angle close to 90 with respect to the slides 704 and are capable of Coincide with the indentations 432 of the guide 430. Various O-ring seals are arranged around the piston cylinder: an upper seal 710 located at the end of the cylinder 702, a lower seal 712, a seal 714 disposed just above openings 708, and a seal 716 disposed just below the openings 708. These various seals, in addition to the sealing functions which will be explained later, allow a guide of the piston during its vertical movement in the guides 430 and 420, such as that shown in particular Figure 9, which is a section AA of Figure 8 showing the top view of the tank. In operation, the reservoir 40 is disposed in the support 20, the recesses 48 of the reservoir bearing on the internal flanges 28 of the support. This position is illustrated in particular in FIGS. 2, 3, 10 to 12, 16a, 17a, as well as in FIGS. 18 and 19. As can be seen in these figures, in this position, the reservoir 40 is completely arranged in the support 20, the front face 50 bearing on the frame 36 of the support 20. Thus, only exceeds the handle 52 of the tank 40 of the front face of the oven, as shown in Figure 2. The lower zone 206 is then closed in upper part by the underside of the tank. The different clearances between the reservoir and the support make it possible, in particular, for a ventilation link between the lower zone 20E; and the outside of the device. In this position, the sliders 704 of the piston 70 are arranged at the rear end of the sliders 30, against the vertical recess 32 forming a stop. The slides being inclined downwards, the piston 70 is thus in the lower position relative to the guides 420 and 430. In this situation, the openings 708 of the piston are located opposite the notches 432, as shown in Figure 12. In the upper part of the piston, the seal 710 is positioned at the end of the guide, so that a portion of the notch 422 of the guide 42.0 is located above the end of the cylinder 702, as shown in FIG. Figure 16a. Moreover, the indentations 706 are positioned at a level n, with reference to the explanations of FIG. 1, this level being situated slightly above the opening 26 for the passage of water from the receptacle towards the hearth. Thus, in this position, and as shown in Figure 17a, when the reservoir 40 comprises water, the latter can be introduced into the lower region 206 forming the bowl of the support passing through the piston 70 through the openings 432 and 708 and then out of the piston by the notches 706. The water can then leave the support 20 to supply the sole 60 through the opening 26 and the conduit 12 to balance the levels between the lower zone 206 and the sole 60 Such a path is shown in FIG. 17a by the arrow F. Since the furnace does not provide a perfect seal with the outside, the hearth 60 is thus in aeraulic connection with the outside, as is the zone 206 of the support. , which allows the passage of water to the sole to tend to balance the levels between the zone 206 and the sole.

  At the same time, air can go up from the lower zone 206 towards the inside of the piston and into the volume of the reservoir, through the parts of the indentations 422 left free by the seal 710, in order to replace the water flowing to the floor 60. Such an air inlet is represented by the arrow G in Figure 17a.

  Moreover, the seal 714 avoids a water introduction by the free end of the guide 430. As shown in Figure 19, a space f is provided between the lower end of the piston and the wall 202 defining the lower zone 206 , to facilitate the flow of water, but also to reduce the consequences of scale formation. This FIG. 19 also shows a slight gradient in the duct 12, so that a low level of water in the tank is sufficient to transfer this water into the hearth. When the water level in the lower zone 206 is high enough to plug the passages through the indentations 706, the water no longer flows because the air can no longer compensate for the descending water. Such a level corresponds substantially to the level n indicated in FIG. 19. This level corresponds substantially to a filling at mid-height of the depression zone 62 of the hearth 60. As soon as the resistance causes the water to evaporate, the level drops. passages through the indentations 706 are opened again, thus freeing the passage to the air. The evaporated water is then automatically compensated. The level n, corresponding to the height of the indentations 706, thus determines the level of water in the lower zone 206 and therefore in the heating cavity. It may vary slightly depending on the wettability of the materials used for the piston, the tank, and the support, as well as any residual pressure in the cooking chamber. Such a position of the piston, corresponding to the positioning of the tank 40 completely in the support 20, is called the open position, since it allows, such an open tap, to transfer the water from the tank to the oven floor. When the user wishes to fill or clean the reservoir 40, he grasps the latter by the handle 52 on the front of the oven and slides the reservoir relative to the support 20 in a substantially horizontal movement and perpendicular to the front face of the oven. This sliding movement induces a guide of the sliders 704 of the piston in the slides 30, which causes a vertical upward movement of the piston 70 in the guides 420, 430. Figs 13 to 15, 16b and 17b show the positioning of the piston when the slides 704 are near the end of the slides. In this position, the openings 708 of the piston are no longer in register with the notches 432 of the guide 430, and the seals 712 and 716 isolate the notches 432, so that no water entry into the piston body can be prevented. performed by said indentations. Furthermore, in the upper part of the piston, as shown in Figure 16b, the seal 710 is now positioned above the notches 422, so that no water entry can be made by the indentations 422. 20 Of the so, the inside of the piston is completely isolated from the interior volume of the tank. Such a position can therefore be called the shutter position. The tank can thus be completely out of the support, which causes a slight upward movement of the piston, reinforcing the positions that have just been presented. The angle of inclination has slides of about 4 allows a vertical movement of the piston of the order of 1.5 cm, which allows the different positions of the joints as shown. The subsequent filling of water in the tank thus causes no leakage through the indentations 706 of the piston. The replacement of the reservoir 40 in the support 20 makes it possible to slide the piston downwards so as to bring the openings 708 of the piston 70 in register with the indentations 432 of the guide 430, allowing the passage of water in the support and then in the sole. In addition to the advantages which have just been mentioned, and in particular the automatic adjustment of the water level by simple and only mechanical means, the device according to the invention also has the advantage of being easily dismountable. In particular, the piston can be removed from the guide 430 in case of difficulty of sliding for thorough cleaning. The present invention also covers the technical equivalents of the various parts and functions that have just been mentioned, as well as the various possible arrangements of the support and the reservoir in the device. The support can indeed be arranged on one of the side walls or on the bottom wall, depending on the use. Furthermore, more simplified or more usual versions of the means for closing the water passage from the tank to the container can be envisaged within the scope of the invention, the piston being reduced to a plug completely placed in the container and actuated in shutter or out of the shutter of the passage of water by the bars of actuation. It will then be preferred a rotational movement, making it easier to guarantee a seal at the reservoir, a cam system allowing for example the transformation of the translational movement during the insertion or removal of the reservoir, in rotational movement of actuating bars.

  A spring and valve device, such as that described in FR 2398433 can also be used effectively, such elements being widely known in the field of liquid tank connections. Although the illustration of the present invention relates to an electric household appliance, other appliances may be equipped with such a device, such as steam cookers. 15

Claims (19)

  1. Device (10) for automatic regulation of the water level in a heated or heated cavity (120, 60) of a household appliance, said cavity (120, 60) having a ventilation connection with the outside of the appliance , said device (10) having an airtight water tank (100, 40) in its upper part, in removable connection with a container (110), the tank (100, 40) having an opening (44) water filling in the upper part, and an opening (102, 400) in the lower part of the water passage to the container (110) formed by a conduit (104), characterized in that the conduit (104) ) opens at a level n in the container (110), the latter having a connection (112) with the outside of the appliance, the container (110) having, under the level n, an opening (116, 26) of water flow to the heating cavity, and in that the level n is a defined filling level of the heated heater (120, 60).   2. Device (10) according to the preceding claim, characterized in that the reservoir (100, 40) comprises means for closing (70) the opening (102, 400) of water passage in the lower part when the reservoir (100, 40) is no longer connected with the container (110).   3.. Device (10) according to the preceding claim, characterized in that the container forms part of a support (20) of the reservoir (40), said reservoir (40) being removable from the support (20).   4. Device (10) according to the preceding claim, characterized in that the closure means consist of a part (70) disposed in the reservoir (40) and having actuating rods (704) capable of being in relation with two ramps (301, 302) integral with the support (20), one (302) of the ramps (301, 302) acting or enabling acting on at least one of the actuating rods (704) to move the part (70) in the closed position of the opening (400) for the passage of water from the reservoir (40) towards the container during the extraction of the reservoir (40) from the support (20), the other 16 17 ramp (301) acting or allowing to act on at least one of the operating bars (704) to move, during the insertion of the reservoir (40) into the support (20), the workpiece ( 70) in an open position of the passage of water to the container.   5. Device (10) according to the preceding claim, characterized in that the opening (400) of the water passage from the tank (40) to the container is delimited by a vertical guide (430) having at least one passage opening of water (432) on a portion of its base, the closure member (70) being a hollow piston, slidable in a watertight and airtight manner in the guide (430) under the effect cooperation between the actuating rods (704) of the piston (70) and the ramps (301, 302) of the support (20), the piston (70) having an opening (706) at the bottom, as well as the least one hole (708) on a portion of its periphery, substantially at mid-height, said hole (708) being capable of either communicating with the water passage (432) of the guide (430), or to be isolated from said orifice (432), depending on the position of the piston (70).   6. Device (10) according to one of claims 4 or 5, characterized in that the actuating rods (704) are disposed under the reservoir (40).   7. Device (10) according to one of claims 5 or 6, characterized in that the piston (70) constitutes the conduit (104) connecting the reservoir (40) to the container, the opening (706) in the lower part of the piston (70) opening at the level n of the container constituted by a lower zone (206) of the support (20) closed by the reservoir (40) and having a ventilation link with the outside, said zone (206) comprising the opening ( 26) of water flow from the container to the heating cavity (60).   8. Device (10) according to the preceding claim, characterized in that the reservoir (40) comprises a handle (52) and is removable from the support (20) by substantially horizontal sliding.   9. Device (10) according to the preceding claim, characterized in that the two ramps (301, 302) of the support (20) form a slide (30) on at least one of its sliding walls, said slide ( 30) being inclined at an angle α with respect to the sliding direction of the reservoir (40).   10. Device (10) according to the preceding claim, characterized in that the slide (30) is disposed on one of the side walls of the support (20).   11. Device (10) according to the preceding claim, characterized in that 5 the two side walls of the support (20) each carry a slide (30) with which cooperate the actuating rods (704) of the piston (70).   12. Device (10) according to one of claims 5 to 11, characterized in that the guide (430) of the piston (70) is tubular, the piston (70) being cylindrical and having at least three peripheral sealing seals (712, 714, 716) bearing on the inside of the tubular guide (430), two (714, 716) of these seals (712, 714, 716) being arranged on either side of the hole (708) formed on a part of the periphery of the piston (70), the third (712) being disposed in the lower part of the piston (70).   13. Device (10) according to one of claims 5 to 12, characterized in that the reservoir (40) has a cover (42) having a guide (420) of the upper part of the piston (70).   14. Device (10) according to the preceding claim, characterized in that the opening (44) for filling the reservoir water (40) is closed by a removable cap (46), said cap (46) and the lid (42) providing airtightness with the interior of the tank (40) when in place.   15. Device (10) according to the preceding claim, characterized in that the guide (420) formed in the cover (42) is tubular, the piston (70) sliding in a watertight manner and air in said guide (420) via a peripheral seal (710). 25   16. Device (10) according to the preceding claim, characterized in that the guide (420) in the cover has at least one opening (422) such that the seal (710) of the piston (70) with said guide (420) is below said opening (422) when the piston (70) is in the water flow position from the reservoir (40) to the support, and is above said opening (422) when the piston is in the closed position of said water passage.   Domestic appliance comprising a device (10) for automatic regulation of the water level in a heating cavity (60) according to one of claims 1 to 16, characterized in that the heating cavity (60) represents the sole of an electric oven (1).   18. Domestic appliance according to the preceding claim, characterized in that the support (20) is disposed outside the enclosure of the oven (1).   19. Appliance according to the preceding claim, characterized in that the support (20) is open at the front face of the oven (1), the reservoir (40) then sliding horizontally from the rear to the front of the oven (1).