SI22689A - Integrated oven with forced ventilation - Google Patents

Abstract

The submitted invention refers to the field of household appliances, more precisely integrated ovens and/or stoves and in particularly integrated ovens and/or stoves with forced ventilation, while the specified integrated oven and/or integrated stove includes a cooling fan, an air conduit and an exhaust channel which links the interior of the oven with the air conduit. The invention also deems that the aforementioned conduit (4) on its first side encloses the specified exhaust channel (1) where the aforementioned conduit (4) converges to the partitioning wall (3) of the integrated oven also by its first end while its other end continues to the main sheet metal panel (10) which is positioned in a vertical displacement from the specified partitioning wall (3) and is running with a slight inclination towards the door (7) of the integrated oven. There is a condensation container (13) attached to the specified main sheet-metal panel on the side, looking towards the partitioning wall (3), which is the terminal for the exhaust channel (5) running from the inside of the oven (6).

Description

Built-in oven with forced ventilation

The present invention relates to the field of household appliances, and more specifically to built-in ovens and / or cookers, and more specifically to built-in ovens and / or cookers with forced ventilation, said oven and / or built-in cooker comprising a cooling fan, air guide and vent, connecting the inside of the oven to the air guide.

Forced ventilation of built-in ovens and / or built-in cookers is based on known solutions based on a radially tangential fan arranged in a two-piece air guide. The carrier portion of the air guide also forms the ceiling of the household appliance, with the fan arranged below the ceiling, or the partition wall of the appliance, with the fan arranged on the upper side of the partition.

Another forced ventilation solution is designed with an axial radial fan, which is secured through a carrier in a two-piece air guide. The upper and lower assembly of the air guide is usually a standalone unit, but the lower part of the air guide may be integrated into the partition wall of the apparatus.

In both known cases described, gases and vapors from the interior of the oven are led to the air guide through the openings on the ceiling of the oven and directly through the vent into the air stream cooler than said gases and vapors emanating from the inside of the oven generated by the cooling fan. These gases and vapors, mixed with cold air, are blown out of the household appliance through the slots under the faceplate on the front of the appliance.

It is an object of the invention to create a new household appliance, in particular a built-in oven and / or stove, in which forced ventilation will be optimally designed.

The task according to the invention is solved by the fact that in the area above the partition wall of the built-in oven there is a guide which surrounds the fan on its first side. With its first end, said guide flows into said partition wall of the built-in oven, while with its second end it continues into the guide plate, which lies at a vertical distance from said partition wall and with a slight inclination flows in the direction towards the door of the built-in oven. A condensation vessel is attached to said guide plate facing the partition wall, into which a vent is inserted from the inside of the oven.

According to the invention, it may be provided that an intermediate sheet is arranged between the partition wall of the built-in oven and the guide plate instead of the condensation vessel, which is attached to its guide plate by its longitudinal, upwardly curved edges, thereby creating a ventilation duct. In this case, the vent is driven from the inside of the oven to the area between the guide plate and the intermediate plate.

In order to create adequate ventilation, a series of openings into which the conductor runs is designed on the side of the door of the built-in oven and in its front wall. Approximately half the height of the duct formed by the partition wall and the guide plate of the guide is arranged with a transverse air divider separating the cooling air flow from the fan to the upstream suction flow and the downstream cooling flow.

The invention will now be described in more detail below and described on the basis of embodiments and with the aid of the drawings shown in FIG. Fig. 1 shows a built-in oven with a forced ventilation design, in cross section; 2 shows a built-in oven according to FIG. 1 in the front view; FIG. 3 shows a built-in oven with a second embodiment of the forced ventilation design, in cross-section, FIG. 4 shows a built-in oven according to FIG. 3 in the front view; FIG. 5 is a cross-sectional view of a built-in oven with a third embodiment of a forced ventilation design, FIG. 6 is a top view of the air guide, and FIG. 7 is a built-in oven according to FIG. 5 in the front view.

For optimum ventilation, the built-in oven according to the invention is preferably a fan 1, which is preferably selected as a radially tangential fan, said fan 1 in the domestic appliance being arranged in the region of the back 2 and above the partition wall 3 of the built-in oven. Further, the built-in oven according to the invention comprises a guide 4 and a vent 5 connecting the interior of the oven to said guide 4. In this case, said guide 4 is planarly intensely designed (Fig. 6) and, when viewed from the front of the household appliance, is approximately centered relative to to the door 7 of the built-in oven according to the invention, occupying most of the width of said door 7.

Said guide 4, on its first side, is enclosed by said fan 1 in the manner of housing 8, and at the part of housing 8 it is designed with an inlet 9 for cooling air, which the fan 1 pushes forward along guide 4. at the first end it flows into said partition wall 3 of the built-in oven, while with its second end it proceeds to the guide plate 10, which lies at a vertical distance from said partition wall 3 and flows slightly downwards towards the door 7 of the built-in oven. On the side of the door 7 of the recessed oven, a series of openings 11, 11 ', 11 are located in its front wall, which lie in the mouth area of the guide 4, with approximately half of the height of the channel formed by the partition wall 3 and the guide plate 10 arranged transverse flow divider 12 air. On said guide plate 10, a condensation vessel 13 is mounted on the side facing the partition wall 3 into which said vent 5 is inserted, said condensation vessel 13 being closed on all sides, only on the side facing the air divider. , wherein the outlet opening 14 of the condensation vessel 13 extends into the space between the guide plate 10 and the air divider 12, thereby forming a gap 15 between the air divider 12 and the condensation vessel 13. According to the invention, it is contemplated that the width of the outlet opening 14 of the condensation vessel 13 corresponds approximately to width of the central opening 11 'in the front wall of the oven.

During the operation of the built-in oven according to the invention, fan 1 of the cooling air stream A, which enters it through the inlet opening 9 in the housing 8, along the guide 4, beneath and adjacent to the condensation vessel, exits through the openings 11, 11 ', 11. Herewith the cooling air flow A at the air divider 12 is distributed to the lower air stream 16 leaving the oven directly through all openings 11, 11 ', U, and to the upper air stream 17 which, due to the suction effect produced in the slot 15 , that is, between the air divider 12 and the condenser vessel 13, it sucks air B together with the furnace gases and vapors through the vent 5 from the inside 6 of the recessed oven and pushes it into the surroundings through the opening 14 of the condenser vessel 13 and in the space between the guide plate 10 and the divider 12 air through the central opening 11 'at the front wall of the built-in oven. The humid air stream B from the condensation vessel 13 exits through said opening 11 'at the front of the oven on the dry cooling air stream cushion A sent by fan 1 below and adjacent to the condensation vessel 13. Said cooling air stream A intensely cools said condensation vessel 13, thereby accelerating the condensation of the resulting steam from the oven. The condensate evaporates subsequently over a long period of time.

The second embodiment of the built-in oven according to the invention is essentially the same as the first embodiment described above, except that the air divider is not used in this case. The condensation vessel 13 extends directly into the area of the central opening 11 'on the front wall of the built-in oven. Fan 1 pushes the cooling air stream A only through the space between the condensation vessel 13 and the partition wall 3 of the built-in oven, whereby the outflow stream B of moist air exits the condensation vessel 13 controlled through the opening 11 'only on the basis of the overpressure generated at evaporation of moisture during the heat treatment of food inside the 6 oven. The humid air stream B from the condensation vessel 13 exits through said opening 11 'at the front of the oven on the dry cooling air stream cushion A sent by the fan 1 below and adjacent to the condensation vessel 13. The bottom of the condensation vessel 13 is cooled simultaneously from its lower and upper sides, resulting in a better condensing effect.

A third embodiment of a built-in oven according to the invention provides for the installation of an intermediate plate 18 between the partition wall 3 of the built-in oven and the guide plate 10. The said intermediate plate 18 is attached to its guide plate 10 by its longitudinal, upwardly curved edges, thereby creating a ventilation duct 19. 5 is driven from the inside of the oven 6 to the area between the guide plate 10 and the intermediate plate 18. Fan 1 pushes the cooling air stream A simultaneously above and below said intermediate plate 18, with a suction effect above the intermediate plate 18 of the flowing air A causing the air to suck B mixed with furnace gas and steam through a vent 5 from the inside 6 of the recessed oven and pushing it through the central opening 11 'out of the oven. The residual stream A of the dry cooling air exits the oven through the side openings 11, 11 and below the intermediate plate 18 through the central opening 11 '.

Claims (1)

Patent claims Built-in oven with forced ventilation, comprising a cooling fan, guide and vent connecting the inside of the oven to the guide, characterized in that said guide (4) surrounds said fan (1) on its first side, said guide (4) with its first end it flows into the partition wall (3) of the built-in oven, while with its second end it proceeds to the guide plate (10), which lies at a vertical distance from said partition wall (3) and with a slight inclination flows towards the door (7) of the oven, and that a condensation vessel (13) is fitted to said guide plate (10) facing away from the partition wall (3) into which a vent (5) is inserted from the interior (6) of the oven. Built-in oven according to claim 1, characterized in that an intermediate sheet (18) is arranged between the partition wall (3) of the built-in oven and the guide plate (10), which is fixed to its guide plate (10) by its longitudinal, upwardly curved edges. thereby creating a ventilation duct (19), whereby the vent (5) is driven from the inside (6) of the oven to the area between the guide plate (10) and the intermediate plate (18). Built-in oven according to claim 1, characterized in that a series of openings (11, 11 ', 11), into which the guide (4) flows, is arranged on the side of the door (7) of the built-in oven and in its front wall. halfway through the height of the duct formed by the partition wall (3) and the guide plate (10) of the guide (4), a transverse air divider (12) arranged.