EP0731318A1 - Baking oven - Google Patents

Abstract

Baking oven with pyrolytic self-cleaning has a muffle (3) and an oven door (8) with a window assembly (12) and an additional window (10) mounted in the door base (11). Between the window assembly (12) and the circumference of the windows (10) of the glass pane (9) facing outwards a flow barrier (18) is arranged. Pref. the flow barrier (18) consists of air baffle plates which guide the air through a lower air inlet opening (19) in the door base (11) to an upper air outlet opening (20). This injector effect is supported by a cooling air blower (5). Thus the window is separated from the convective flow area and warms up quickly, preventing condensation during pyrolytic cleaning.

Description

The invention relates to an oven according to the preamble of claim 1.

Ovens with a device for pyrolytic self-cleaning are known in particular (DE-AS 25 45 531; DE 23 43 640 A1), in which, with a free air gap to a front door glass plate with a transparent inner area, one of several likewise transparent, but the Passage of heat radiation-inhibiting glass plates or glass plate composite existing window assembly is arranged within the metallic door floor, wherein in the cavity between the window assembly and the front glass plate through an upper and lower air openings an air convection flow is used to dissipate heat within the oven door. In the case of the last-mentioned document, a screen which can be moved from outside the viewing area to the viewing area is provided for the pyrolytic self-cleaning operation, through which the air flow is guided during self-cleaning operation and which is also intended to prevent heat radiation to the outside. Esp. Due to the thermally insulating multiple glazing within the window assembly, the see-through area remains relatively cool for a long time, while the other door areas, for example the door edge area, heat up relatively quickly. It is usually impossible to prevent vapors or steam coming from the interior of the furnace muffle from entering the interior of the furnace door, for example at the edge of the door assembly, and condensing at the coldest point, i.e. in the viewing area, for example on the inner surface of the glass pane on the front.

The invention has for its object to improve an oven of the type mentioned in the preamble of claim 1 so that condensation in the viewing area of the oven door can be at least largely avoided.

This object is achieved according to the invention by the measures listed in the characterizing part of claim 1. Advantageous embodiments of the invention result from the following patent claims.

In comparison with known oven designs, another technological path is taken by the invention. This does not attempt to z. B. front glass pane in the area of the viewing window, for example, to protect it from excessive heating by means of a screen and to remove the steam or vapors also accumulating in this area by convection flow, but this viewing area is deliberately left out of the convection flow area and not additionally cooled, which, on the one hand, results in a relatively rapid heating of the front glass pane to a degree which excludes burn injuries when touching this front pane, thereby counteracting the formation of condensate in this area and also at least largely prevented by the flow barrier of the vapors or steam from reaching this viewing area.

According to a preferred embodiment of the invention, the convection flow at least to a large extent kept away from the viewing area by the flow barrier is discharged to the outside through air outlet openings at the upper area, these air outlet openings being located in the immediate vicinity of cooling air ventilation slots, as a result of which the cooling air flow forced by a cooling air blower is discharged due to the so-called injector effect, the convection flow taking place inside the oven door is increasingly withdrawn from the door area.

The invention is explained below using an exemplary embodiment shown in the drawing.

Fig. 1

eine schematische Schnittdarstellung des Backofens,

Fig. 2

eine vergrößerte schnittdarstellung der Ofentür gemäß der Schnittlinie II-II in Fig. 1.

It shows

Fig. 1

is a schematic sectional view of the oven,

Fig. 2

an enlarged sectional view of the furnace door along the section line II-II in Fig. 1st

In the embodiment according to FIG. 1, an oven muffle 3 surrounded by thermal insulation 2 is arranged within an oven housing 1, the heating elements of which are not shown. Above the furnace muffle and below an electrical control device 4 there is a cooling air blower 5 for discharging the heated air located in the housing space between the furnace muffle 3 and furnace housing 1, the pressure side of which is connected to an exhaust air duct 6, which in turn for example extends over a large part of the oven width Extending ventilation slot 7 opens on the front of the oven below the control device, through which the heated exhaust air is discharged to the outside (see arrow direction). The furnace muffle 3, which is open on one side, can be closed by a furnace door 8, which is essentially formed from a large glass pane 9 on the front side, which has a pane region that is, for example, rectangular, transparent and a viewing window 10 in the central area, while the glass pane 9 is not transparent outside of this viewing window , for example with a print. This glass pane 9 is supported by a metallic door floor 11, formed by two step-shaped sections 11.1 and 11.2 (see FIG. 2 in this regard). A window assembly 12, generally designated by 12, with glass panes 14 arranged in a composite frame 13, which form a laminated glass pane, is arranged with a free air gap to the front glass pane 9. Between a flange 15 of the door base 11 facing the interior of the oven muffle 3, which surrounds the inspection opening, and the pane assembly 13/14 there is a seal 16, for example a glass silk seal, which is required instead of a rubber seal when the oven is pyrolytically self-cleaning. For example, through this seal 16 or through other leaks on the door base 11, vapors or steam get into the interior of the door assembly when the oven is in operation, it being possible to assume that the glass pane assembly 13/14 is steam-tight. This steam passes below and above the viewing window 10 into the cavities 17 of the door base 11 (see arrows in Fig. 2). In order now to prevent a direct flow of the steam into the area of the viewing window 10 on the front glass pane 9 and around this viewing area 10 from the inside of the door from bottom to top according to the arrows To avoid the convection flow taking place in FIG. 1, a frame-like, for example metallic flow barrier 18 is attached to the outer boundary of the composite frame 13 and extends at least approximately to the inner surface of the front glass pane 9, preferably being supported on this inner surface in the peripheral region of the viewing window 10. This flow barrier 18 is formed by frame-like air baffles, which in the exemplary embodiment are funnel-like inclined outwards. As a result, the air flowing through a lower inlet opening 19 (FIG. 1) into the cavity of the door base 11 in the direction of the arrow and flowing upward by natural convection when the door assembly is heated up is at least largely kept away from the viewing window 10, ie it flows around the heat barrier 18 and is passed through an upper air outlet opening 20 is discharged into the open, favored by the injector effect of the forced air flow emanating from the cooling air blower 5.

Claims (4)

Baking oven with an oven muffle that can be closed by an oven door, the oven door having a see-through window with a glass plate on the front and a window assembly with at least one further glass pane and air openings for producing a convection air flow in the cavity enclosed by the door floor within a door floor facing the muffle interior , characterized in that a flow barrier (18) is provided between the window assembly (12) and the circumference of the see-through window (10) of the front glass pane (9). Baking oven according to claim 1, characterized in that the flow barrier (18) is designed in the form of frame-like coherent air baffles which are arranged on the window assembly (12) and extend from there to at least approximately the front glass pane (9). Baking oven according to one of the preceding claims, characterized in that preferably elongated air outlet openings (20) are provided on the upper side of the cavity enclosed by the door base (11). Baking oven according to Claim 3, characterized in that the air outlet openings (20) are located in the immediate vicinity of ventilation slots (7) arranged on the top of the door for the forced outflow of exhaust air caused by a cooling air blower (5) provided in the oven housing (1).

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