WO2008148675A2 - Oven - Google Patents

Abstract

Disclosed is an oven comprising a cooking compartment (2) that can be closed by an oven door (20), and a rear fan chamber (9) in which a hot air fan (10) is located. Hot air flows are conducted, by means of air conducting elements (14) and air outlets (13) in the fan chamber wall (8), from the hot air fan (10) into the cooking compartment (2) and to the material that is to be cooked. According to the invention, the air conducting elements (14) which support lamellae generate swirling hot air flows at a distance from the lateral cooking compartment walls (3, 4) and from the central region (22) of the cooking compartment (2).

Description

 oven

The invention relates to an oven with a closable by an oven door cooking chamber and arranged at the rear of the cooking chamber fan, in which a hot air blower is passed from the hot air flows through Luftleitelemente and through air outlet openings in the fan chamber in the cooking chamber to the food.

In a known oven with so-called circulating air heating (DE 10 31 39 16 A1) is compared to a outgoing from the circulating air blower and the recirculating air blower electric heater outgoing main air flow in the range of each e.g. On both sides of the fan chamber wall air outlet opening an air guide element in the form of a relation to the directly from the circulating air blower directed to the respective outlet opening main flow direction arranged a two-dimensional deflection. By appropriate dimensioning of the angle of attack of the deflecting surface with respect to the main flow direction, at least a majority of the incoming air flow from the circulating air through the air outlet openings in the direction of the front oven door and largely at a distance from the only relatively clean recirculating air side cooking space walls, thereby preventing substantial cooling of the hot air streams becomes.

Investigations have shown that the air flow generated by the circulation fan within the housing chamber flows not laminar but turbulent or twisted in the sense of a kind of rotation or twisting of the flowing hot air around a virtual main flow axis.

The present invention is therefore an object of the invention to improve a baking oven of the type mentioned in view of the aforementioned findings so that a direct onflow of the lateral cooking chamber walls, but also a direct onflow of the food is largely prevented.

According to the invention, this object is achieved in that in particular each air outlet opening is provided with an air guide element, which with respect to the Respective flow direction of the outgoing from the hot air blower hot air flows obliquely inclined, one of the air outlet opening outgoing in the wiring air-causing lamellae is provided.

By the measures according to the invention, the fact that within the fan chamber turbulent or wired hot air flows are given, taken into account and taken into account by independently of the flow pattern in the fan chamber through the air outlet openings through flowing hot air, a flow twist is forced through which independently from the flow pattern of the incoming hot air in the blower chamber by far focusing and bundling a kind of adhesive contact with the cool, lateral cooking chamber walls, but also a direct flow of the food associated with a partial, ie Uneven heating of stored in one or more floors Garguts is largely prevented. The advantages obtained by the invention are optimally achieved in particular when a plurality of the air outlet opening radially moving lamellae are provided. As a result, hot air streams flowing in all possible directions within the blower chamber are captured by the swirl-forming, radial lamellae and combined in a wired hot air stream directed in a targeted manner into the cooking chamber.

In favor of an optimization of the available cooking space volume and in the sense of a flat, easily cleanable geometry of this device chamber wall, it is advantageous if each air guide element is arranged within the fan chamber, although an external arrangement of the air guide element or an arrangement within the air outlet openings is conceivable.

It is also advantageous if the lamellae extend radially away from the opening edge of the preferably circular air outlet opening. In this way, although an effective wiring of the incoming hot air flows is achieved, however, an impairment or reduction of the opening cross section of the air outlet opening is avoided. In order to obtain an optimal twisting and bundling of the outgoing hot air flow from each air outlet opening, it is advantageous if the slanted slats are still curved in itself.

According to an advantageous development of the invention, it is provided that each air guide element is designed in the form of a hollow cylinder with peripherally projecting lamellae on the circumference of the cylinder and with free flow openings formed between these lamellae. One thus obtains a prefabricated and easily assembled unit.

Further details of the invention will become apparent from the illustrated in the drawings and described below embodiments:

It shows:

Figure 1 is a front view of the oven muffle of a baking oven in a schematic representation without oven door

Figure 2 The top view of the oven shown cut open with

Representation of introduced into the oven hot air flows,

Figure 3 The enlarged view of a single air guide element.

The oven muffle (1) shown in Figure 1 is configured cuboid and shown without oven door. The cooking chamber (2) has bottom and top side cooking chamber walls and side cooking chamber walls (3 and 4) and a rear cooking chamber wall (5). In superimposed levels slide rails (6) are attached to the side cooking space walls (3, 4) for holding retractable Gargutträgern (7), eg different design. In front of the rear muffle wall (5), this is arranged overlapping a blower chamber wall (8) explained in more detail below. This blower chamber wall (8) forms between the rear muffle wall (5) and the blower chamber wall (8) arranged in front of a blower chamber (9) (Figure 2) within which blower chamber (9) is an electrically driven hot air blower (10) which is circular is surrounded by an electric heater (1 1) (FIG 2). Immediately in the amount of the hot air blower (10) is located in the blower chamber wall (8) has a suction port (12) through which the blower chamber (9) with the cooking chamber (2) communicates with air technology.

As indicated in FIGS. 1 and 2, circular air outlet openings (13) are provided on the two lateral edges of the blower chamber wall (8), whereby in practice a plurality of such air outlet openings (13) can be arranged at said edges, but also at other locations of the blower chamber wall , Air-conducting elements (14) are connected directly in fluid communication with these air outlet openings (13), as shown in FIGS. 2 and 3 with reference to a section of the blower chamber wall (8) (FIG. 3). Each air guide element (14) is designed as a structural unit in the form of a hollow cylinder and has at the periphery of the cylinder a plurality of peripherally extending from the opening edge of the outlet openings (13) extending lamellae (15), which move the air outlet openings (13) fully and substantially radially, as Figure 3 shows. The air guide elements (14) are located inside the blower chamber (9). The, for example, rectangular lamellae (15) are obliquely inclined relative to the respective radial (16) by an angle (a) and can be curved in itself, as indicated by an example with a dashed line (17). Between these slats (15) free flow openings (18) are formed.

As indicated in FIG. 3 by flow arrows, the hot air blower (10) generates turbulent or wired hot air flows (19) in the blower chamber (9), which are supplied to the air outlet openings (13) in different flow directions or virtual flow axes. By means of the stationary and directly to the air outlet openings (13) connected air guide elements (14) these hot air streams (19) by the obliquely inclined and optionally spoon-shaped against the air outlet openings (13) cambered lamellae (15) bundled into a wiring in the cooking chamber (2) and in the direction of a oven door (20) directed hot air flow, as indicated in Figure 1 and 2 on both sides of the fan chamber wall (8). The picture should show that these are in themselves wired hot air streams (21) at a distance from the nearby cooking chamber walls (3, 4) and are also removed from the central region (22) of the cooking chamber (2) in which the food supports (7) with the food to be treated. These hot air streams (21) are reflected on the oven door (20) and flow through the central largely undirected Area (22) of the cooking chamber where their heat energy is transmitted evenly to the food and from where the amount of air through the air intake (12) through the hot air blower (10) is centrally sucked and fed to another circulation.

Claims

claims 1. oven with a closable by an oven door (20) cooking chamber (2) and with a on the cooking chamber rear side (5) arranged fan chamber (9) in which a hot air blower (10), from which hot air flows (21) through Air guide elements (14) and through air outlet openings (13) in the fan chamber wall (8) into the cooking chamber (2) are led to the food, characterized in that the air outlet opening (13) with an air guide element (14) is provided with a relative to the respective flow direction of the hot air blower (10) outgoing hot air flows (19) obliquely inclined blade (15) is provided, which causes one of the air outlet opening (13) outgoing, in-wired air flow (21). 2. Oven according to claim 1, characterized in that a plurality of the air outlet opening (13) radially moving blades (15) are provided. 3. Baking oven according to one of the preceding claims, characterized in that each air guide element (14) within the fan chamber (9) is arranged. 4. Baking oven according to one of the preceding claims, characterized in that extending the lamellae (15) radially away from the opening edge of the preferably circular air outlet opening (13). 5. Baking oven according to one of the preceding claims, characterized in that the lamellae (15) are formed curved in it. 6. Baking oven according to one of the preceding claims, characterized in that each air guide element (14) in the form of a hollow cylinder with circumferentially peripherally projecting fins (15) and with formed between these fins free flow openings (18) is formed. 7. Baking oven according to one of the preceding claims, characterized in that a plurality of air guide elements (14) provided with air outlet openings (13) in the blower chamber wall (8) are provided. 8. Baking oven according to one claim 7, characterized in that the air outlet openings (13) at the two lateral edges of Blower chamber wall (8) are provided.