EP1653781A2 - Cooking oven - Google Patents

Abstract

A microwave oven has a heating chamber (10) within a framework (12) and a door (14) for opening or closing the chamber. A microwave seal (16) of an elongate, channel rail-like construction is installed to a part of the framework in contact with the door.

Description

Cooking oven

The invention relates to a cooking oven for treating food to be cooked by means of microwave radiation. In particular, the invention relates to a cooking oven which enables treatment of the food to be cooked both by means of microwave radiation and by direct supply of heat.

Garages or cooking appliances that prepare the food with microwave radiation are used daily in households. Even those cooking appliances that work with both microwave radiation and direct heat, are increasingly being used. The latter cooking ovens have the advantage that the food can also be treated simultaneously by means of microwave radiation and direct heat supply. The microwave treatment allows a short preparation time. The simultaneous operation of a heating element ensures that the food is also prepared crispy.

Since the microwave radiation poses a health risk to the human organism, in cooking appliances with integrated microwave function, the microwave radiation must be shielded from the outside or at least significantly attenuated.

For this purpose, for example, the transparent area of the door, which closes the cooking chamber, provided with a metal grid or a metal perforated plate. The mesh size of the metal grid or the hole diameter of the perforated plate is substantially smaller than the wavelength of the microwave radiation used. In this way, leakage of the microwave radiation through the door is effectively prevented.

However, the microwave radiation can also escape through a gap between the closed door and the frame of the feed opening of the cooking appliance. In order to effectively seal a cooking oven in this area against the escape of microwave radiation, microwave seals are used. The microwave seal can be placed on the door of the cooking appliance, so that it penetrates into the cooking chamber. The microwave seal can also be integrated within the door of the cooking appliance, so that the inside of the door can be made flat. For example, an impedance choke or a so-called λ / 4 pocket can be used as microwave seals.

The impedance choke is known for example from US 4,523,069. The impedance choke makes it possible, by adapting to the wavelength of the microwaves used geometric dimensions in the region of the critical gap to form a high impedance and thereby prevent the escape of the microwaves through the gap.

The λ / 4 pocket is known, for example, from US Pat. No. 3,182,164 and from DE 33 28 748 A1. The λ / 4 pocket comprises a cavity with an electrically conductive, in particular metal surface. The cavity has an opening through which the microwaves can enter the cavity. The inner diameter of the cavity is about one quarter of the wavelength of the microwaves used. As a result, the microwaves are extinguished or at least significantly attenuated. Thus, the λ / 4 pockets form a trap or attenuator for the microwaves.

From US 4,584,447 a further development of the λ / 4 pockets is known in which the cavity is filled with a dielectric (dielectric). The dielectric reduces the wavelength of the microwaves within the cavity. This allows smaller internal dimensions of the cavity.

The λ / 4 pockets according to US Pat. No. 3,182,164, DE 33 28 748 A1 and US Pat. No. 4,584,447 are each arranged in the region of the gap between the closed door and the frame of the charging opening of the cooking appliance in or on the door. This prevents the escape of microwaves through this gap.

From DE 40 31 893 A1 a pure microwave device is known in which elements which form a trap for waves, are arranged on an inner part of a door frame. These elements are covered by an impression of an insulating material, such as silicone.

It is an object of the invention to provide a cooking oven for treating food to be cooked by means of microwave radiation, which allows efficient shielding at a relatively low design cost.

This object is achieved by the subject matter of claim 1.

• a) wenigstens einem Garraum;
• b) wenigstens einen Rahmen, der wenigstens eine Beschickungsöffnung des Garraumes zumindest abschnittsweise umschließt;
• c) wenigstens eine Tür zum Verschließen der Beschickungsöffnung, wobei die Tür im geschlossenen Zustand die Beschickungsöffnung vollständig und eine Vorderseite des Rahmens teilweise abdeckt; und
• d) eine Mikrowellen-Abdichtung, die an der Vorderseite des Rahmens angebracht oder anbringbar ist, wobei die Mikrowellen-Abdichtung im geschlossenen Zustand der Tür neben einer Außenumfangsfläche oder einem Außenumfangsflächenabschnitt der Tür angeordnet ist.

According to claim 1, the cooking oven for treating food to be cooked by means of microwave radiation comprises:

• a) at least one cooking chamber;
• b) at least one frame, which surrounds at least one feed opening of the cooking chamber at least in sections;
• c) at least one door for closing the loading opening, wherein the door in the closed state completely covers the loading opening and partially covers a front side of the frame; and
• d) a microwave seal, which is attached or attachable to the front of the frame, wherein the microwave seal is arranged in the closed state of the door adjacent to an outer peripheral surface or an outer peripheral surface portion of the door.

The core idea of the invention is that the microwave seal is formed separately from the door. This has the advantage that the door can be configured independently of the microwave seal. This means a constructive simplification. It is It is not absolutely necessary that there be facilities in the door, in the frame or in the cooking chamber to shield the microwave radiation which could penetrate through the space between the door and the frame to the outside. Of course, there is also the possibility to use additional microwave seals, which are arranged for example within the door.

Preferably, the microwave seal comprises at least one elongate section. As a result, the elongated gap between the door and frame can be covered or shielded.

In the preferred embodiment, the microwave seal has at least one cavity. For this purpose, the microwave seal may comprise at least one rail. In the case of a suitable geometric design, this causes, in particular, interference effects which cause a weakening or extinction of electromagnetic radiation.

For example, the microwave seal comprises at least one U-profile rail. The U-profile rail is a structurally simple and thus cost-effective means that is suitable as a microwave seal.

In the preferred embodiment, the microwave seal has at least one inner diameter that corresponds to one quarter of the wavelength of the intended or used microwave radiation. This causes due the interference a weakening or extinction of the microwave radiation.

Furthermore, it can be provided that the microwave seal has a plurality of slots. The slots are facing the space between the door and frame and provided for the entry of the microwave radiation into the interior of the U-profile rail.

Preferably, at least a portion of the slots are arranged parallel to each other. This also contributes to a damping of the microwave radiation.

In this case, the slots can extend perpendicular to the longitudinal direction of the microwave seal or the elongated portion of the microwave seal. This allows a particularly efficient attenuation of the microwave radiation.

To take advantage of another effect, the microwave seal may be slightly spaced from the outer peripheral surface or the outer peripheral surface portion of the door. In this case, the distance between the microwave seal and the outer peripheral surface or the outer peripheral surface portion of the door, for example, between 2 mm and 3 mm, preferably about 2.5 mm. The two parallel surfaces form a capacitance which also causes an extinction or attenuation of microwave radiation.

In addition, the oven may have a seal, the cooking space with the door closed to the outside against the escape of hot air and / or steaming, vapors and / or odors produced during cooking seals. This contributes to an increase in the efficiency and prevents the escape of offensive odors.

For example, in the closed state of the door, the seal between the frame and the door is arranged. Preferably, the seal is attached or attachable to the inside of the door. Alternatively, the seal may also be attached to the frame. The seal is made of an elastic and heat-resistant material.

Furthermore, the door may have at least one transparent pane. This always allows an insight into the oven without opening the door. This prevents heat loss.

To seal the disc can be provided that applied to the disc a grid, a perforated plate or the like made of an electrically conductive material, in particular is printed. Thus, microwave radiation can be effectively shielded.

This can be achieved, in particular, if, in the case of the grid, the perforated plate or the like, the mesh size or the hole diameter is smaller than the wavelength of the microwave radiation provided or used.

Preferably, the inside of the door is formed as a substantially flat surface. As a result, the inside of the door is formed without protruding edges, whereby the cleaning of the door is facilitated. The risk of injury at the door is reduced. In this case, the inside of the door closes with the cooking chamber of the oven in such a way that it does not protrude into this.

In particular, the door is pivotally mounted on the cooking oven, wherein preferably the door is pivotally mounted on the cooking oven via at least one hinge joint.

According to an alternative embodiment, the door of the oven may be the part of an extendable baking tray. Such constructions facilitate access to the oven and the removal of the food from the oven.

Furthermore, a high-frequency seal may be provided, which is attached or attachable to the front of the frame or the inside of the door. The combination of microwave and high frequency sealing increases the efficiency of the seal. The high-frequency seal can be designed as a profile strip. Preferably, the high frequency seal is mounted just below the microwave seal at the front of the frame. The high-frequency seal is made of silicon, for example. In addition, the high frequency seal may also include graphite particles for absorbing radiation.

In particular, the microwave seal has a cover. The cover is preferably adapted to the design of the oven. The cover may be formed as a profile strip, which is partially formed in a form-fitting manner with the microwave seal. Because the moldings can be easily replaced, the design of the oven can be easily changed and adapted to the design of the environment.

In addition, the oven may have heating elements or the like, which are provided for a direct supply of heat to the food. For example, resistance heating elements can act on the food to be cooked with thermal radiation. In particular, the oven is intended for combination operation with microwave radiation and direct heat input. This allows a short preparation time due to the microwave radiation and a crispy preparation of food due to the heat radiation.

According to one embodiment of the invention, the microwave seal comprises at least one impedance choke. The geometric dimensions of the impedance choke are adapted to the wavelength of the microwaves used, whereby in the region of a critical gap, a high impedance is formed and the exit of the microwaves is prevented by the gap.

Finally, the invention relates to a microwave seal, which is provided for the cooking oven described above.

Further features, advantages and particular embodiments are the subject of the dependent claims.

Fig. 1

eine Perspektivansicht einer bevorzugten Ausführungsform der Mikrowellen-Abdichtung für ein erfindungsgemäßes Gargerät,

Fig. 2

einen Ausschnitt einer schematischen seitlichen Schnittansicht einer ersten Ausführungsform des erfindungsgemäßen Gargerätes, und

Fig. 3

einen Ausschnitt einer schematischen Seitenansicht einer zweiten Ausführungsform des erfindungsgemäßen Gargerätes.

The invention will be described below with regard to further features and advantages with reference to the description of specific embodiments and with reference to the accompanying drawings explained in more detail. Show it:

Fig. 1

a perspective view of a preferred embodiment of the microwave seal for a cooking appliance according to the invention,

Fig. 2

a section of a schematic side sectional view of a first embodiment of the cooking appliance according to the invention, and

Fig. 3

a section of a schematic side view of a second embodiment of the cooking appliance according to the invention.

In Fig. 1, a preferred embodiment of a microwave seal 16 is shown. The microwave seal 16 is formed as a U-profile rail. The U-profile rail is composed of three profile sections, namely a long leg 22, a central portion 24 and a short leg 26 together.

The microwave seal 16 has a plurality of elongate rectangular slots 28 which extend approximately perpendicular to the longitudinal direction of the U-profile rail. The slots 28 each extend completely over the entire length of the short leg 26 and over most of the length of the central portion 24. Thus, the microwave seal 16 is approximately comb-shaped or rake-shaped formed and includes a plurality of tongues 30, which also extend perpendicular to the longitudinal direction of the U-profile rail. Between two adjacent slots 28 are each one of the tongues 30th

The microwave seal 16 is made of an electrically conductive material. Preferably, the microwave seal 16 is made of metal, in particular of aluminum or steel. The distance between the long leg 22 and the short leg 26 corresponds to about one quarter of the wavelength of the microwave radiation used or intended.

The slots 28 are provided for the entry of the microwave radiation. Since one of the inner diameters of the U-profile rail corresponds to about one quarter of the wavelength of the microwave radiation, the electromagnetic waves interfere within the U-profile rail. This leads to an extinction or at least attenuation of the microwave radiation.

The microwave seal 16 can be arranged in a cooking oven, in particular immediately adjacent to the gap between a door and a frame. The design effort for this separately formed microwave seal 16 is relatively low. In contrast, the design effort for a microwave seal, which is located within the door or the oven would be much larger.

In Fig. 2 is a detail of a schematic side sectional view of a first embodiment of Garofens invention shown. The oven is intended for treating food to be cooked both by microwave radiation and by direct heat. The combination of microwave radiation and direct heat supply is possible.

The oven comprises a cooking chamber 10 with a feed opening, which is surrounded by a frame 12. In Fig. 2 that portion of the frame 12 is shown, which is located above the cooking chamber 10 and with respect to the hinge joint. Furthermore, the oven comprises a door 14 which is pivotally mounted in the lower region of the frame 12 by means of a hinge joint, not shown. Thus, the cooking chamber 10 is opened by the door 14 is folded from a vertical position to a horizontal position down.

The door 14 has a door frame 18. On its inside, the door 14 has a disk 32 made of a transparent material such as glass, glass ceramic or the like. The door frame 18 has in its central region on a recess, not shown, so that the door 14 comprises a viewing window. The disc 32 is inserted by means of a seal 34 in the door frame 18. On the disc 32, a grid or a perforated plate of an electrically conductive material is printed. The mesh size of the grid or the diameter of the holes in the perforated plate is smaller than the wavelength of the microwave radiation. Thus, the microwave radiation do not pass through the disc 32 to the outside.

The seal 34 is provided on the one hand for sealing the disc relative to the door frame 18. On the other hand, the seal 34 is provided for sealing the door 14 with respect to the frame 12. Since the seal 34 is permeable to the microwave radiation, the microwave radiation between the frame 12 and the door 14 can escape to the outside. In order to suppress or attenuate this microwave radiation, the microwave seal 16, which is shown in FIG. 1, is located on the frame 12 above the door 14.

The microwave seal 16 is attached to the frame 12 and extends parallel to the top edge of the door 14. The microwave seal 16 is arranged so that the U-profile rail is open upwards. Through the slots 28 in the central portion 24 of the U-profile rail, the microwave radiation enters the microwave seal 16 a. Since the inner diameter of the U-profile rail is about one quarter of the wavelength of the microwave radiation, the microwave radiation is deleted or at least attenuated by interference.

Furthermore, the distance between the upper outer peripheral surface of the door 14 and the microwave seal 16 is about 2.5 mm. The two parallel metal surfaces form a capacity which also causes an extinction or attenuation of microwave radiation.

As an alternative to the pivotable mounting by means of the hinge joint, the door 14 may also be a part of a drawer, which can be introduced into the cooking chamber in the manner of a drawer. This facilitates access to the oven and the removal of the food from the oven.

In Fig. 3 is a schematic side view of a second embodiment of the cooking appliance according to the invention is shown. The same or comparable parts have the same reference numerals as in Fig. 2. The oven also includes a frame 12 which surrounds the feed opening of the cooking chamber 10. In addition, the oven has a door 14 which covers the charging opening in the closed state and thus closes the cooking chamber 10. The door 14 is secured on its underside with a hinge joint, not shown, at the bottom of the frame 12. The door 14 is thus pivotally mounted.

At the front of the frame 12, the microwave seal 16 and a high-frequency seal 36 are arranged in the upper region. The microwave seal 16 is formed as shown in FIG. The high-frequency seal 36 is formed as a profile list and extends parallel to the microwave seal 16. The high-frequency seal 36 also causes a shielding of electromagnetic radiation.

At the front of the door 14 is a front panel 40 and a handle 42. Above the Garofens is a superstructure 44th

Furthermore, the oven according to FIG. 3 has a cover 38, which is designed as a profiled strip. The cover 38 is partially formed in a form-fitting manner with the microwave seal 16. The cover 38 completely encloses the short leg 26 and partially the central portion 24 of the U-profile rail.

The cover 38 on the one hand has the function to adapt the microwave seal 16 to the design of the front panel 40 and the superstructure 44. On the other hand, the cover 38 has the function of protecting the user from injury by the metal and thus possibly sharp-edged microwave seal 16. In addition, the cover 38 has a cooling function. The cover 38 is made of plastic, for example.

The microwave seal 16 is particularly easy to install and can also be retrofitted in many Garöfen. As a result, the shielding can be improved even in older cooking ovens with microwave function.

It should be noted at this point that the cooking appliances according to FIGS. 2 and 3 are suitable both for pure microwave operation and for operation with conventional heating elements. Among the Conventional heating elements are to be understood as meaning those heating elements which directly supply the heat to the food to be cooked, for example by heat radiation, heat transport and / or heat convection. In addition, the cooking appliances according to FIG. 2 and FIG. 3 are also suitable for a combined operation, in which the food to be cooked is simultaneously exposed to microwave radiation and direct heat.

The device of the invention is not limited to this specific example, but also in a variety of modifications possible, which are within the scope of professional action.

LIST OF REFERENCE NUMBERS

10

oven

12

frame

14

door

16

Microwave seal

18

doorframe

22

long thigh

24

midsection

26

short thigh

28

slot

30

tongue

32

disc

34

poetry

36

High-frequency sealing

38

cover

40

front panel

42

Handle

44

superstructure

Claims (29)

Cooking oven for treating food by means of microwave radiation, the cooking oven comprising: e) at least one cooking chamber (10); f) at least one frame (12) enclosing at least one feed opening of the cooking chamber (10) at least in sections; g) at least one door (14) for closing the loading opening, wherein the door (14) in the closed state completely covers the loading opening and partially covers a front side of the frame (12); and h) a microwave seal (16) mounted or attachable to the front of the frame, wherein the microwave seal (16) is disposed in the closed state of the door (14) adjacent an outer peripheral surface or outer peripheral surface portion of the door (14) , Cooking oven according to claim 1,
characterized in that
the microwave seal (16) comprises at least one elongate section. A cooking oven according to claim 1 or 2,
characterized in that
the microwave seal (16) has at least one cavity. A cooking oven according to any one of claims 1 to 3,
characterized in that
the microwave seal (16) comprises at least one profile rail. Cooking oven according to claim 4,
characterized in that
the microwave seal (16) comprises at least one U-profile rail. Oven according to one of the preceding claims,
characterized in that
the microwave seal (16) has at least one inner diameter which corresponds to a quarter of the wavelength of the microwave radiation provided or used. Garofen'nach one of the preceding claims,
characterized in that
the microwave seal (16) has a plurality of slots (28). Oven according to claim 7,
characterized in that
at least a part of the slots (28) is arranged parallel to one another. Oven according to one of claims 2 to 8,
characterized in that
the slots (28) extend perpendicular to the longitudinal direction of the microwave seal (16) and the elongated portion of the microwave seal (16). Oven according to one of the preceding claims,
characterized in that
the microwave seal (16) is slightly spaced from the outer peripheral surface or the outer peripheral surface portion of the door (14). Cooking oven according to claim 10,
characterized in that
the distance between the microwave seal (16) and the outer peripheral surface or the peripheral peripheral surface portion of the door (14) is between 2 mm and 3 mm, preferably about 2.5 mm. Oven according to one of the preceding claims,
marked by
a seal (34) which, when the door (14) is closed, seals the cooking space (10) towards the outside against the escape of hot air and / or steaks, vapors and / or odors produced during cooking. Oven according to claim 12,
characterized in that
in the closed state of the door (14), the seal (34) between the frame (12) and the door (14) is arranged. Oven according to claim 12 or 13,
characterized in that
the seal (34) is attached or attachable to the inside of the door (14). A cooking oven according to any one of claims 12 to 14,
characterized in that
the seal (34) is made of an elastic material. A cooking oven according to any one of claims 12 to 15,
characterized in that
the gasket (34) is made of a heat resistant material. Oven according to one of the preceding claims,
characterized in that
the door (14) has at least one transparent pane (32). Oven according to claim 17,
characterized in that
on the disc (32) a grid, a perforated plate or the like applied from an electrically conductive material, in particular is printed. Oven according to claim 18,
characterized in that
in the grid, the perforated plate or the like, the mesh size or the hole diameter is smaller than the wavelength of the intended or used microwave radiation. Oven according to one of the preceding claims,
characterized in that
the inside of the door (14) is formed as a substantially flat surface. Oven according to one of the preceding claims,
characterized in that
the inside of the door (14) with the cooking chamber (10) of the cooking oven flush so that it does not protrude into this. Oven according to one of the preceding claims,
characterized in that
the door (14) is pivotally attached to the oven. Oven according to one of the preceding claims,
characterized in that
the door (14) is pivotally attached to the oven via at least one hinge joint. Oven according to one of the preceding claims,
characterized in that
the door (14) is part of an extendable back cart. Oven according to one of the preceding claims,
marked by
a high frequency seal (36) mounted or attachable to the front of the frame (12) or the inside of the door (14). Oven according to one of the preceding claims,
marked by
the microwave seal (16) has a cover (38). Oven according to one of the preceding claims,
characterized in that
the oven has heating elements or the like, which are provided for a direct supply of heat to the food. Oven according to one of the preceding claims,
characterized in that
the oven is intended for combination operation with microwave radiation and direct heat supply. Microwave seal, which is provided for the cooking oven according to one of claims 1 to 28.

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