EP3429362A1 - System for producing flatbread, and method for the provision of same - Google Patents

Abstract

The invention relates to a system for producing flatbread, comprising a closed portion capsule (1) that has a pre-shaped dough body (7) arranged therein, preferably an individual portion dough body, consisting of a, preferably, yeast-free dough material on the basis of flour and water and preferably on the basis of wheat flour and water, in order to produce flatbread in a domestic flatbread baking device, with the dough body (7) being shaped. According to the invention, the dough body (7) comprises a dough crust all the way around made of the dough material and enclosing a core that consists of a mass of raw dough.

Description

 System for flat bread production and method for its

 provision

The invention relates to a system for flat bread making according to the preamble of claim 1, comprising a closed portion capsule with a preformed, in particular press-formed, dough body, preferably single serving body, arranged thereon, preferably yeast-free, dough material based on (flour) flour and water, preferably based on wheat flour and water, for the production of flat bread, in particular a tortilla, in a Haushaltsflachbrotbackvorrichtung with deformation of the dough body. Preferably, the dough material may contain a flour other than wheat flour and / or oil and / or fat and / or salt and / or additives.

Furthermore, the invention relates to a method according to claim 9 for providing a system comprising a closed portion capsule with part body arranged therein.

In addition, the invention relates to the use of such a system, comprising a portion capsule with therein arranged dough body according to claim 19 with a Haushaltsflachbrotbackvorrichtung, in the context of which the dough body reshaped, i. flattened and a flat bread is baked.

From the applicant WO 2013/124809 A2 a method and an apparatus for producing a flat bread from a dough body are known, which is stored in a portion capsule and is transferred in a Haushaltsflachbrotbackvorrichtung of the portion capsule in a combined forming and baking device, the Dough body into a flat bread, in particular a tortilla transforms, the flat bread bakes and outputs after baking.

The portion capsule preferably used in accordance with the teaching of the document within the scope of the method has a ring groove adjacent to a sealing area to which a lid foil is sealed with a capsule container into which a ring knife of the flat bread baking apparatus can be dipped for opening the portion capsule Providing the annular groove does not come into contact with the sticky wheat dough body and thus is not polluted.

In practice, the transfer of the dough body from the portion capsule in functional units of

Haushaltsflachbrotbackvorrichtung, such as a forming device and a baking device difficult to make, especially since wheat doughs are sticky and thus have a tendency to adhere in the portion capsule, especially a long storage time of several days, as well as in functional units and transport routes within the Haushaltsbackvorrichtung.

From WO 98/04139 A1 it is known to provide a pre-cooked food product based on dough, partly to fry the dough. The end user should thus be enabled to finish cooking the final product in the delivered form at home.

It is known from WO 03/077660 A1 to heat a multi-layer dough-based food product comprising two layers of different materials which are stacked and then helically rolled from a single direction, more precisely from below in a through-hole oven. The publication deals with problems of industrial production - in particular should prevents the already shaped food products during manufacture do not adhere to baking trays or conveyor belts - in particular to prevent the finished shaped food products take an undesirable taste of contact surfaces.

WO 2014/071300 A1 does not deal with dough bodies, but with the processing pulpy masses. From the document it is known to treat the pulpy mass thermally so that it is completely gelatinized and crunchy in the outdoor area.

It is known from WO 2004/030461 A1 to prepare a lye pastry with strong outer browning from dough. JP 3150910 B is concerned with the production of dough-based frozen products.

WO 2004/066751 A1 describes the thermal treatment of a food product with steam.

From DE 699 18 075 T2 a method for treating food products is known, wherein according to the teaching of the document, a dough portion is placed on a fluid-impermeable conveyor belt and heated on the underside to harden the dough portion. As an optional measure is provided to heat the dough portion also on the top and the long sides. According to the further teaching of the document, the dough portion thus treated can be further processed either directly by a baking process; Alternatively, it is possible according to the teaching of the document to intermediately store the pre-treated dough portion deep-frozen before the baking process. A Deformation of the edge-hardened dough portion before the baking process does not take place in any of the alternatives.

Based on the aforementioned prior art, in particular the applicant's WO 2013/124809 A1, the object of the invention is to specify a system comprising a portion capsule with preformed dough body arranged therein, which ensures a non-frozen state even with a long storage time in that the dough body does not stick in the capsule. In addition, the combination of portion capsule and dough body should be such that the dough body easily process in a Haushaltsflachbrotbackvorrichtung, in particular flatten to a flat bread, i. Forming and baking leaves. It is a further object to provide a method of providing such a system comprising a portion capsule and pre-formed dough body for flat bread making packaged therein.

This object is achieved in terms of the system, ie the portion capsule dough combination with the features of claim 1, ie in a generic system characterized in that the dough body has fully a dough crust of the dough material, which encloses a core of raw dough. It is essential that it is still to be reformed into a flat bread dough body, so not to the finished flat bread mold, which is formed from the dough body only in the Haushaltsflachbrotbackvorrichtung. In the context of the invention, a dough body is thus understood to be a shaped lump, block or ball, preferably having a defined outer contour, which (in spite of the crust) can be formed, in particular flattened, into flat bread. With regard to the method, the object is achieved with the features of claim 9, ie in a generic method in that a raw, not heat-treated dough on flour and water-based, especially on wheat flour and water-based and defined to a dough body, in particular by compression molding (preformed), wherein during and / or after the forming step, the shaped dough body is fully heated, such that the full dough crust forms, which encloses the core of still raw, in particular unggelleisterter dough mass, whereupon, in particular after a optional cooling step, which converts the dough crust, preformed dough body into a portion capsule and then the portion capsule then, in particular hermetically sealed, in particular by sealing a lid film on a capsule container, which is particularly characterized by a greater average wall thickness than the lid foil.

The system formed and / or provided as above serves for use with or in a domestic flat bread baking device, preferably after a non-frozen storage, ie when stored at room temperature or in a refrigerated compartment above 0 ° C., of at least two days, preferably more than 10 days, more preferably more than 30 days, wherein the dough body with dough crumb unpacked in the Haushaltsbackvorrichtung from the portion capsule and, preferably a single serving forming, dough body, in particular slipping, in a forming device for forming the dough body to a, preferably single, flat bread under Breaking the dough crust is transferred and the flat bread is baked during and / or after the forming. The forming takes place in a flattening direction (flat bread thickness direction) preferably from an original thickness of the dough body of more than 1 cm, in particular about 2 cm out in a flat breadth of less than 5mm, preferably less than 4 mm, in particular between 1 mm and 3 mm. It is essential that in the forming the dough crust is broken, so loses its wrapping function and preferably at least partially covered during the forming of the raw dough within the dough crust or pressed into it.

The aforementioned use should also be considered as an independent method disclosed in the context of the present disclosure, which should be claimable as an independent invention. The method relates to the preparation of a flat bread in the manner described above in a Haushaltsflachbrotbackvorrichtung with one of a portion capsule of a system according to the invention, unpacked, a full-fledged dough having dough body whose dough crust broken in the forming of the Haushaltsflachbrotbackvorrichtung, as described above, and preferably at least partially below the raw dough (core) is worked. The dough crust is therefore only a temporary protective function, namely a storage and transport function.

Advantageous developments of the invention are specified in the subclaims. All combinations of at least two features specified in the description, the claims and / or the figures fall within the scope of the invention.

To avoid repetition, features disclosed in accordance with the device or object should also be disclosed and claimed as being in accordance with the method. Likewise, according to the method disclosed features should also be considered as disclosed device and claimable. With regard to the dough body packed in a preferably hermetically sealed portion capsule, the idea of the invention is the idea based on, preformed by dough molding of a dough shaped (preformed) dough body of a preferably yeast-free, dough material (dough) on flour and water-based, especially on wheat flour and water-based, in particular dry heat supply to provide a dough crust, which is made an outer region (peripheral layer) of the dough material forms by heat application, wherein the dough crust encloses a core of roughened dough mass, ie a dough which is substantially not heat-treated or which only temperatures below 60 ° C, preferably below 50 ° C, more preferably below 40 ° C and even more preferably below 30 ° was exposed. Most preferably, the heat treatment, as will be explained later, is performed so that at least one center (geometric center) of the core does not heat up during the heat treatment. As will be explained later, it is particularly preferred if the dough crust is not browned by the heat treatment, ie substantially different in terms of degree of browning of the raw Kernteigmasse, since the dough in the subsequent forming process in the Haushaltsflachbrotbackvorrichtung deliberately destroyed again and at least partially worked under the raw dough mass and optically should not be noticed there. The dough crust thus deliberately only serves a temporary protective function, which on the one hand prevents the dough body, even after a non-frozen storage lasting several days, from sticking to a capsule inner wall, preferably serving as a single-portion capsule, ie in particular not on the inside adheres to a capsule lid and on the inner wall of a closed capsule container by means of the lid but slides out during the unpacking process within the Haushaltsflachbrotbackvorrichtung from the then opened portion capsule, in particular such that no raw dough remains in the capsule remains. Furthermore, the Dough body protected by the dough crust without adhesions to functional units or transport paths of the

Household flat bread baking device to be transported to a forming device, which is preferably designed as a combined forming and baking device to be formed in the forming device, i. to be flattened compared to the dough body substantially two-dimensional flat flat shape, in particular tortilla shape. It is deliberately accepted that with the forming device and / or the baking device, the raw dough mass comes into direct contact by breaking the dough crust - if appropriate corresponding non-stick coatings can be provided on the corresponding functional unit of the Haushaltsflachbrotbackvorrichtung (especially Tortillabackvorrichtung). Very particularly preferably, by providing the dough crust, the dough body retains its advantageous properties, in particular a non-sticking property through the dough crust over the entire minimum service life of preferably 30 days, even more preferably 40 days, very preferably 50 days, even more preferably 60 days a non-frozen storage.

By realizing the portion capsule according to the invention with a dough body having a dough crust can be dispensed with a costly special coating of the portion capsule, which would also not ensure effective adhesion over the life of the dough portion, preferably over 40 days. Also, coating the raw dough with flour would not have a long-lasting effect. A further advantage is that it is possible to dispense with tackiness-reducing additives in the dough containing preferably wheat flour. As mentioned, the dough body is preferably a single portion for producing a single flat bread, in particular a single tortilla, with the baking device of course, several flat breads are successively produced using several systems. For this purpose, the dough body preferably has a weight between 20 g and 60 g, preferably between 30 g and 50 g, even more preferably between 30 g and 40 g and / or a volume from a value range between 20 cm ³ and 60 cm ³ , preferably between 25 cm ³ and 50 cm ³ , even more preferably between 30 cm ³ and 45 cm ³ . As already stated, the dough body according to the invention does not correspond to the shape of the finished food product but requires the transformation into a flat bread with breaking up of the dough crust. The viscosity of the core measured according to ICC Standard No. 169, ie the raw dough mass within the dough crust, is preferably between 1 .700 BU and 2,500 BU (Brabender units), in particular between 1,900 BU and 2,400 BU, very particularly preferably between 2,100 BU and 2,300 BU. It is therefore a sticky, highly viscous mass, in contrast to the crust texture - this is not sticky and has a much lower moisture content than the core. In the case of the dough crust, in contrast to the core, a hardened gluten network has been formed by the heat treatment, Maillard reaction phenomena preferably being kept as low as possible by a suitable (preferably low) temperature control / selection. or be. Preferably, the result of the measurement according to ICC Standard No. 169 based on the dough crust is between 400 and 800 BU.

According to ISO 1 1036: 1994, the hardness of the dough crust is preferably between 300 and 400 Newton based on a penetration depth of 1.5 mm and / or on the hardness of the dough between 200 and 300 Newton based on a penetration depth of 3 mm. Preferably, the measurement is carried out with a texture meter TA / TXplus with a 45 ° cone adapter according to the P45C Perspex method of stable micro Systems.

Preferably, the consistency of the core according to DIN EN ISO 5530-1: 2013 is between 470 and 520 FU (Farinograph units).

As already indicated, the portion capsule preferably comprises a, in particular trough-shaped capsule container made of plastic and / or metal. In the case of plastic training, the capsule preferably comprises a barrier layer, in particular an EVOH layer against moisture and / or oxygen. It may, for example, be an injection molded or deep-drawn or capsule container made on the basis of other plastics processing technology. It is also possible to use laminates comprising at least one plastic layer, which if necessary can also contain a metal layer. It is also possible to produce the capsule container completely from metal, for example aluminum, in particular as a deep-drawn part, likewise the capsule container surrounds the dough body and is closed with a cover film, which is preferably sealed to the capsule container, in particular to an opening-side collar. Preferably, a groove is provided radially within the sealing surface into which a ring knife for dipping the lid film can dive - due to the formation of the dough body with dough crust can also be dispensed with, since not to the extent the risk of contamination of the knife. Preferably, the material thicknesses of the capsule container and the film differ, preferably by at least 200μιτι. A usual material thickness of a plastic capsule container is between about 0.1 mm and 0.5 mm, while the material thickness of a cover film is preferably about 0.1 mm. The plastic capsule container is preferably produced by deep drawing a plastic film, the for example, before deep drawing has a thickness of 0.55 mm. Deviations from this are, of course, feasible.

To further increase the shelf life of the dough body in the portion capsule, it is advantageously provided in a further development of the invention that the dough body is surrounded by protective gas in the portion capsule.

Since the dough crust of the dough body has its function only during storage in the portion capsule and on the short path to the forming device in Flachbrotbackvorrichtung this is preferably formed only as thick as necessary, especially in order to underline them as completely as possible under the raw dough, so that the dough body crust no longer appears in the produced flat bread itself. The dough crust therefore preferably has an average layer thickness from a value range between 0.5 mm and 4 mm, preferably between 0.8 mm and 3 mm, very particularly preferably between 0.9 mm and 2.5 mm, even more preferably between 1.0 mm and 2.1 mm on. A moisture content fraction of the dough crust is preferably between 6 and 20% by weight, preferably between 10 and 16% by weight, more preferably between 12 and 14% by weight and / or a moisture content fraction of the core between 28 and 50% by weight, preferably between 30 and 40% by weight , even more preferably between 34 and 36% by weight. It has proved particularly expedient if the moisture content fraction (moisture content) of the core is significantly higher than that of the crust, in particular by at least 8% by weight, more preferably by at least 15% by weight, even more preferably by at least 25% by weight, completely more preferably at least 30% by weight higher. The moisture content is preferably measured according to DIN EN ISO 712: 2009. The not having the shape of the finished product, ie the flat bread having dough body has an extension along three spatial directions, preferably its smallest extension in a spatial direction, ie its smallest diameter at least 1 cm, preferably at least 2cm, more preferably at least 3cm. Overall, it is advantageous if the smallest diameter (regardless of the absolute measure) is at least 20 times greater, preferably at least 30 times greater than the layer thickness of the aforementioned dough crust.

Since it is a preferably lumpy dough body and not an already flat flat bread shape is provided in a further development of the invention that the extent along each space axis is at most 10 times, preferably at most five times as large, even more preferably three times as large is like the respective extent of the other two spatial axes in a three-dimensional Cartesian coordinate system with the mutually perpendicular spatial axes X, Y, Z. With regard to the concrete shape, there are different possibilities. It is particularly useful if the dough body at least partially, preferably fully conforming to the shape

Portionskapselinnenvolumen is configured, that has a contour which corresponds to the inner contour of the portion capsule at the same or reduced scale. It is particularly expedient if the dough body is designed, at least in sections, in the form of a spherical segment, a truncated cone, a cuboid or a spherical one.

In the context of the method according to the invention for providing a closed portion capsule with dough body arranged therein, provision is initially made for one already in the context of the explanation the raw, in particular not heat-treated dough mass described on the flour and water-based, in particular wheat flour and water-based, still more preferably without the addition of yeast described the combination of portion capsule and dough body. It is preferably a homogeneous dough mass.

Preferably, after or during a portioning step, which may be weight and / or volume based, the dough body is formed from the raw dough mass, in particular by press molding with a corresponding forming tool.

As will be explained later, for example by means of a preferably used mold and / or after shaping of the dough body, this is fully heated according to the invention, so that the full-length dough crust is formed, which encloses the core of still raw dough. The dough body with dough crust is, preferably after an optional cooling step, transferred into the portion capsule, which is then closed in particular with the inclusion of protective gas, in particular by sealing a lid onto a capsule container.

The heating step is preferably not a frying step because the temperatures involved are too high and would result in undesirable browning of the dough crust. Preferably, it is dry heat.

The heating step can be realized in an advantageous manner by means of a contact heating which bears against the dough body, in particular, as mentioned, by means of a heatable molding tool for shaping the dough body or alternatively by means of a downstream contact heating, which is even more preferably at least partially preferably fully comprises the contour of the dough body. In addition or preferably as an alternative to the use of contact heating, the heat treatment by heat radiation by means of infrared radiation heating has proven to be advantageous. This preferably comprises a plurality of circumferentially arranged around the dough portion infrared radiator to heat the dough portion directly from several sides or fully heat, possibly an all-round heating of the dough body to form the dough crust can also be realized in a convection oven.

The advantage of heating by means of the mold is that the process is particularly effective and no separate heating step is necessary. The advantage of providing an infrared radiator is that it is an effective and cost effective method. Preferably, the heating does not take place over a flame, for example a gas flame, as ash residue is undesirable. As mentioned, it is preferably also not a Frittierschritt. As stated above, it is particularly preferred for the production of a full-scale, uniform crust, when the dough body is heated by means of a contact heating crust formation. In this case, the contact heating is designed such that with this the dough body is contacted and heated not only on one side, for example, the bottom, but on several sides, in particular fully. For this purpose, it is provided in a further development of the invention that the contact heating comprises a plurality of relatively adjustable heating elements, for example, two shells, which can be moved together to a circumferentially closed Heizgebilde or to contact the dough body preferably fully and to heat. It is possible, for example, two trough-like heating elements to provide or a tub-like heating element and a lid member for closing the tub. The contact heating on several sides, in particular over the entire circumference, ensures uniform crust formation (ie crust on several sides, in particular the full thickness crust having the same thickness). It is very particularly preferred in this case if the contact heating is simultaneously formed as a molding tool, in particular as a pressing tool for molding or pressing the dough body into a desired shape. In this case, therefore, by means of the contact heating or the mold, in particular the press mold, the dough body is not only heated to crust formation but also brought into the desired shape.

It has proved to be particularly advantageous when the dough body is received between the several, in particular exactly two, heating elements and subjected to force for pressing, in particular during a first period of time during the heating step. It is very particularly preferred if this pressure after a certain time, in particular after a period of less than 2 s, more preferably less than 1 s and / or preferably more than 0.1 s, even more preferably between 0.3 s and 0, 7s, in particular 0.5 s is reduced or stopped, so that water vapor can escape through the gap formed between at least two heating elements or pressing elements.

Preferably, the heating elements are designed such that they define a space filled by the dough body interior, which corresponds to the inner shape of the portion capsule. It is particularly preferred if the heating elements to a temperature from a range between 150 ° C and 250 ° C, most preferably between 160 ° C and 230 ° C, still more preferably are heated to 180 ° C or are to produce the crust.

After releasing the pressing, a further heating of the dough body preferably takes place via the heating elements until crust formation has been completed. Good experiences have been made with a process in which the pressure is released after about 0.5 seconds and the resulting water vapor can escape, wherein the crust formation is completed after a contact heating time of about 20 seconds.

It is particularly preferred to form the heating elements, at least on their contact surface to the dough body made of stainless steel.

With regard to the design of the actuator for relative adjustment of the heating elements, in particular heating / compression molding elements, there are different possibilities. In general, it is preferred if, in the case of a contact heating, a movable part and a part arranged in a fixed position relative to it are provided in order to have to adjust only a single heating element for opening and closing a heating or baking volume. Preferably, the adjustment takes place pneumatically, and in principle also hydraulic and / or electromotive Versteilantriebe be realized.

The heating step is particularly preferably carried out by matching the time duration and temperature such that the temperature of the dough portion for forming the dough crust on the outer circumference is above 60 ° C., preferably at least 65 ° C., more preferably above 80 ° C., and from one perpendicular to the outer circumference depth to be measured of at most 4mm, ie at the latest from 4mm, preferably at most 3mm, ie at the latest from 3mm, even more preferably from at most 2mm, ie at the latest from 2mm, most preferably from at most 1mm, ie not more than 60 ° C., preferably not more than 50 ° C., even more preferably not more than 40 ° C., from at least 1 mm. In other words, the temperature should decrease rapidly from the outside to the inside, in particular exponentially. It is very particularly preferred if the temperature of the raw dough mass, ie the core, at the latest from a depth of 5mm, preferably 4mm below 30 ° C and / or in a core center less than 25 ° C.

Most preferably, the temperature on the inside of the crust after the heating process is greater than or equal to 65 °, since denature the adhesive proteins from a temperature of about 65 ° C.

It is very particularly preferred if the heating step, in particular by selecting the lowest possible heating temperature is carried out so that preferably no visible, possibly very slight browning of the dough body or its dough crust and / or on the dough crust substantially none or at most a minor Maillard reaction occurs. For this, the heating step is preferably carried out over a relatively short period of preferably less than 40 seconds, more preferably less than 30 seconds, most preferably between 10 seconds and 28 seconds, even more preferably between 15 seconds and 25 seconds, even more preferably 20 seconds. For the preferred case of using a contact heater, it is advantageous if the contact heating at the contact surfaces of their heating elements for Teigportion a temperature between 170 ° C and 250 ° C, most preferably between 180 ° C and 220 ° C, most preferably of 200 ° C. By carrying out the heating step over a short period of time in combination with a forming in the inner volume (cavity) of a contact heating steam atmosphere due to superficially from the dough portion of evaporating water Tanning reactions can surprisingly be avoided or at least reduced to a minimum.

As stated above, the temperature control for the preparation of the dough crust is such that the smallest possible color differences between the dough crust and the core (ie, the raw dough material) result, so possible after a done in the household blender in the finished flatbread possible no original Teigkrusten- and core components to be able to distinguish. The colors of dough crust and core (core material) in the CIELAB color space preferably differ with the basic Cartesian coordinates L ^* , a ^* , b ^* according to EN ISO 1664-4: 201 1, if at all only slightly. Preferably, the dough crust and / or the core in the CIELAB color space has a color defined by L ^* between 60 and 85 and / or a ^* between -0.25 and 2.5 and / or b ^* between 15 and 30. It has proved particularly expedient for the dough crust in the CIELAB color space to have a value L ^* between 60 and 80, and / or a value a ^* between -0.25 and 2.5, and / or a value b ^* between 15 and 30. It is particularly preferred if the color of the core in the CIELAB color space has a value L ^* between 75 and 85, and / or a value a ^* between 0.15 and 0.6 and / or a value b ^* between 20 and 25 ,

With regard to the brightness coordinate L ^* , the difference between the color of the dough crust and the color of the core is preferably at most between 0 and 40 and / or with respect to the coordinate a ^* between 0 and 3.3 and / or with respect to the coordinate b ^* between 0 and 20 ,

As already mentioned, it is preferable to cool the dough body provided with dough crust before transferring it into the portion capsule, in particular on a conveyor belt, preferably even to an outside temperature of less than 60 ° C., preferably less than 50 ° C. less than 40 ° C, most preferably less than 30 ° C, more preferably less than 20 ° C, even more preferably less than 12 ° C, most preferably less than 4 ° C. As mentioned above, the invention also leads to the use of a portion capsule with therein dough body comprising a dough crust which surrounds a raw dough for making, in particular a single, flat bread in a Haushaltsflachbrotbackvorrichtung in which the dough body of the portion capsule, preferably automated, for example by motor or manually actuated from the portion capsule removed or unpacked and, for example and preferably due to the provision of the dough crust, transferred in a forming device for forming the dough body to a, preferably to the flat bread with breaking the dough crust and the flat bread is baked, either in one the forming device downstream baking device or in a combined forming and baking device.

As already indicated, the corresponding method for producing the flat bread with a Haushaltsflachbrotbackvorrichtung, which may be formed, for example, as described in WO 2013/124809 A2, but not specifically designed to be disclosed and claimed claimable.

The method comprises the following steps, wherein portion capsule and / or dough body are formed as in the context of the present disclosure, in particular the claims: a) opening the portion capsule and transferring the dough body with dough crust into a forming device, in particular by slipping at least in sections, b) reshaping of the dough body by means of the shaping device with breaking up of the dough crust, wherein the forming product preferably has a thickness extension of less than 5 mm, preferably less than 4 mm, very particularly preferably between 1 mm and 3 mm after the forming. c) baking the flat bread during and / or after forming.

Preferably, in the context of the method, a single portion of a flat bread is produced and optionally several individual portions in succession.

The forming (flattening) of the dough body is preferably carried out with break-up of the dough crust with pressing forces below 3000N and / or above 500N, more preferably with pressing forces from a range between 800N and 2200N, most preferably between 1300N and 2000N.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawings.

These show in:

1 is a flowchart of a preferred embodiment of a method according to the invention for providing a

Portion capsule with dough body packed therein,

Fig. 2: a representation of a portion capsule with dough body, Fig. 3: a diagram of a preferred temperature distribution in the dough body after a heating step, and 4 shows an illustration of a contact heating designed as a press molding tool for carrying out the shaping and heating step for shaping the dough body and for crust formation.

In the figures, like elements and elements having the same function are denoted by the same reference numerals. In the context of a preferred process sequence illustrated in FIG. 1, a homogeneous raw dough mass based on flour and water, here wheat flour and water, is provided in step I.

In step II, the portioning into individual portions, which in the specific embodiment have a weight between 35 g and 45 g.

In step III, the portioned individual portions are formed by pressing by means of a compression mold to a lumpy, form congruent to the inner contour of a portion capsule formed (defined) lumps and in step IV, the heating of the dough body to produce a full-sized dough crust enclosing a core of still raw dough , The heating step IV is carried out so that substantially no browning of the dough crust occurs. The temperature at the crust inside is 65 ° C in the present embodiment and then drops sharply in the direction of a geometric center of the dough body.

In step V, a cooling of the previously heated dough body and in step VI, the transfer and closing of a portion capsule - concretely the dough body is received in a portion capsule container, which is then hermetically sealed by sealing a lidding foil.

In Fig. 2 is a portion capsule 1, comprising a trough-shaped capsule container 2, which is closed with a lid film 3 is shown. The lidding film 3 is sealed in a circumferential sealing area 4, here for example outside a circumferential groove, which can be dispensed with if required. In a portion capsule inner volume 6, a preformed dough body 7 is accommodated, consisting entirely of a dough material, in which the dough body 7 has a full dough crust formed from the dough material which encloses a core of raw dough mass 9 surrounding it. The dough body 7 is unpacked after transport and storage in a Haushaltsbackvorrichtung and there formed by breaking the dough crust 8 into a flat bread mold and baked.

FIG. 3 shows by way of example the temperature distribution or the temperature profile from outside to inside in a dough body 7 after the heating step. It can be seen that the maximum temperature on the outside, ie at the outer circumference of the dough body 1 10 ° C or just below and then drops sharply, so that in the concrete embodiment after about 3mm to 4mm distance d from the outer peripheral surface a temperature level of about 20 ° C prevails. FIG. 4 shows by way of example a preferred embodiment of a contact heater 10 for carrying out the heating step c) for crust formation. The illustrated contact heater 10 is at the same time formed as a press forming tool to perform process step b), ie to form the dough body 7, in this case press-molding. As can be seen in FIG. 4, the contact heater 10 is designed in several parts and comprises in the concrete embodiment a first and a second heating element 1 1, 12, wherein the heating elements 1 1, 12 are adjustable relative to each other, in the present embodiment, pneumatically by adjusting a in the drawing plane upper, ceiling-shaped heating element 1 1 relative to a stationary, trough-shaped heating element 12. The heating elements 1 1, 12 are formed in this case made of stainless steel and are heated to a temperature of 180 ° C.

After inserting a dough portion 7 in a provided by the heating element 12 cavity 13, the heating elements 1 1, 12 are adjusted by active adjustment of the heating element 1 1 to each other, and thereby the dough mass 9 fully contacted and shaped and heated at the same time and a full, uniform dough crust 8 is formed. At the same time, a pressing force is exerted on the dough mass 9 to form the dough body 7 by the heating elements 11, 12. FIG. 4 shows a contour of the dough mass 9 before the actual press-forming process; After the pressing process corresponds to the shape of the resulting dough body 7 of the inner contour of the heating elements 1 1, 12, in this case after release of the pressure. This pressure is released after a predetermined period of time, for example, 0.5 s hereby - resulting in a circumferential gap between the heating elements 1 1, 12, through which water vapor can escape, wherein the heating elements 1 1, 12 even the release of the pressure of the dough body. 7 contact and warm up. The crust forming process is completed here after a total heating time of 20s, after which the dough body 7 is removed with the dough crust 8 from the cavity 13, to which, of course, first the ceiling-shaped heating element 1 1 must be lifted. reference numeral

1 portion capsule

 2 capsule containers

 3 lid foil

 4 sealed area

 6 portion capsule internal volume

7 dough pieces

 8 dough crust

 9 dough

 10 contact heating

 1 1 heating element

 12 heating element

 13 cavity

Claims

claims

System for flat bread making, comprising a closed portion capsule (1) with a preformed dough body (7) arranged therein, preferably single serving body, from a preferably yeast-free, flour and water based dough material, preferably wheat flour and water based, for the production of flat bread in a Haushaltsflachbrotbackvorrichtung with deformation of the dough body (7), characterized in that the dough body (7) fully comprises a dough crust (8) of the dough material, which encloses a core of raw dough.

System according to claim 1,

 characterized,

 in that the portion capsule (1) has a capsule container (2), in particular of plastic and / or metal, which surrounds the dough body (7), and in that the capsule container (2) by means of a lid foil, preferably sealed to the capsule container (2) (3) is closed.

System according to one of claims 1 or 2,

 characterized,

 the dough body (7) in the portion capsule (1) is surrounded by protective gas.

System according to one of the preceding claims,

characterized,

the dough crust (8) has an average layer thickness from a value range between 0.5 mm and 4.0 mm, preferably between 0.8 mm and 3.0 mm, particularly preferably between 0.9 mm and 2.5 mm, very particularly preferably between 1.0 mm and 2.1 mm.

System according to one of the preceding claims,

characterized,

a moisture content proportion of the dough crust (8) is between 6 and 20% by weight, preferably between 10 and 16% by weight, more preferably between 12 and 14% by weight and / or that a moisture content of the core is between 28 and 50% by weight, preferably between 30 and 40% by weight, more preferably between 34 and 36% by weight, and / or that a moisture content fraction of the core is at least 8% by weight, preferably at least 15% by weight, more preferably at least 25% by weight, most preferably at least 30% by weight. is higher than a moisture content portion of the dough crust (8).

System according to one of the preceding claims,

characterized,

in that a smallest diameter of the dough body (7), preferably of at least 1 cm, preferably of at least 2 cm, more preferably of at least 3 cm, is at least 20 times greater, preferably at least 30 times greater than the average layer thickness of the dough crust (8).

System according to one of the preceding claims,

characterized,

that the, preferred a volume of space from a value range between 20cm ³ and 60cm ³ , preferably between 25cm ³ and 50cm ³ , more preferably between 30cm ³ and 40cm ³ exhibiting, dough body (7) along three arranged at right angles to each other Cartesian space axes x, y, z, and that the extension along each spatial axis is at most ten times as large, preferably at most five times as large, more preferably at most three times as large as the respective extension along the respective two other spatial axes.

System according to one of the preceding claims,

characterized,

that the color of the dough crust (8) and / or the kernel in the CIELAB color space with the basic Cartesian coordinates L ^* , a ^* , b ^* according to EN ISO 1664-4: 201 1 is defined by L ^* between 60 and 85 and / or a ^* between -0.25 and 2.5 and / or b ^* between 15 and 30 and / or that the color of the dough crust (8) in the CIELAB color space with the basic Cartesian coordinates L ^* , a ^* , b ^* according to EN ISO 1 164-4: 201 1 is defined by L ^* between 60 and 80 and / or a ^* between -0.25 and 2.5 and / or b ^* between 15 and 30 and / or that the color of the core in CIELAB Color space with the basic Cartesian coordinates L ^* , a ^* , b ^* according to EN ISO 1664-4: 201 1 is defined by L ^* between 75 and 85 and / or a ^* between 0.15 and 0.6 and / or b ^* between 20 and 25 and / or that the color of the dough crust (8) differs from the color of the kernel in the CIELAB color space with the basic Cartesian coordinates L ^* , a ^* , b ^* by one or more of the following basic coordinate values: L ^* between 0 and 40 and / or a ^* between 0 and 3.3 and / or b ^* between 0 and 20.

Method for providing a system according to any one of the preceding claims, comprising a closed portion capsule (1) with dough body (7) arranged therein for processing into flat bread with deformation of the dough body (7) in a household flat bread baking device comprising the steps of: a) providing one, preferably homogeneous , raw dough (9) based on flour and water;

 b) forming, in particular press-forming, a dough body (7) from the raw dough mass (9);

 c) during and / or after step b) fully heating the dough body (7) and thereby producing the full dough crust which encloses the core of still raw dough mass (9);

 d) transferring the dough body (7) with dough crust (8) into a portion capsule (1) and closing the portion capsule (1), in particular by sealing a lid foil (3).

Method according to claim 9,

characterized,

in that before or by means of the shaping step b), preferably by weight or volume-based, portioning of a dough portion to be formed is carried out.

Method according to one of claims 9 or 10,

characterized,

in that the heating step c) is effected by means of a contact heating, in particular by means of a heatable molding tool, preferably a heatable molding tool and / or by means of one, preferably the shaped dough body from several sides heat-radiating, more preferably a plurality of circumferentially offset infrared radiator infrared radiation heating is performed.

Method according to claim 1 1,

characterized,

in that the contact heater (10), which is preferably designed as a press-forming tool, has a plurality of heating elements (1 1, 12) which are adjustable relative to one another and contact the dough body (7) on several sides, in particular fully, during heating step c) Pressender, Kraftbeaufschlagung.

Method according to claim 12,

characterized,

that after a, in particular predetermined, period during the heating step c) the heating elements (1 1, 2) are adjusted relative to each other so that water vapor escapes.

Method according to one of claims 12 or 13,

characterized,

in that the heating step c) is carried out in such a way that a steam atmosphere is formed on the outer circumference of the dough body (7) within the contact heating.

Method according to one of claims 10 to 14,

characterized,

in that the heating step c) is carried out such that the temperature of the dough body (7) at the outer circumference is above 60 ° C, preferably above 80 ° C, and from a depth of at most 4 mm, measured perpendicular to and from the outer circumference of not more than 3 mm, more preferably not more than 2 mm, most preferably not more than 1 mm, not more than 60 ° C, preferably not more than 50 ° C, nor more than 40 ° C.

Method according to one of claims 10 to 15,

characterized,

the heating step c) is carried out in such a way that the color of the dough crust (8) and / or the core in the CIELAB color space is defined with the basic Cartesian coordinates L ^* , a ^* , b ^* according to EN ISO 1664-4: 201 1 by L ^* between 60 and 85 and / or a ^* between -0.25 and 2.5 and / or b ^* between 15 and 30 and / or such that the color of the dough crust (8) in the CIELAB color space with the Cartesian Base coordinates L ^* , a ^* , b ^* according to EN ISO 1 164- 4: 201 1 is defined by L ^* between 60 and 80 and / or a ^* between -0.25 and 2.5 and / or b ^* between 15 and 30 and / or such that the color of the core in the CIELAB color space with the basic Cartesian coordinates L ^* , a ^* , b ^* according to EN ISO 1664-4: 201 1 is defined by L ^* between 75 and 85 and / or a ^* between 0.15 and 0.6 and / or b ^* between 20 and 25 and / or such that the color of the dough crust (8) depends on the color of the kernel in the CIELAB color space with the basic Cartesian coordinates L ^* , a ^* , b ^* maxi differs by one or more of the following basic coordinate values: L ^* between 0 and 40 and / or a ^* between 0 and 3.3 and / or b ^* between 0 and 20.

Method according to one of claims 10 to 16

characterized,

that the dough body (7) is cooled prior to transfer into the capsule, in particular on a conveyor belt, in particular to a temperature of less than 60 ° C, preferably less than 50 ° C, even more preferably less than 40 ° C., very particularly preferably less than 30 ° C.

18. Use of a system according to one of claims 1 to 9, preferably after a storage of at least two days, with a Haushaltsflachbrotbackvorrichtung in which the dough body (7) with dough crust (8) from the portion capsule (1) is unpacked and the dough body ( 7), in particular slipping, into a forming device for forming the dough body (7) into a, preferably single, flat bread with breakage of the dough crumb transferred and the flat bread is baked during and / or after forming.

A method for producing a flat bread with a Haushaltsflachbrotbackvorrichtung using a system according to any one of claims 1 to 9 with the steps:

- Opening the portion capsule (1) and transferring the dough body (7) with dough crust (8) in a forming device of the Haushaltsflachbrotbackvorrichtung

- Forming the dough body (7) by means of the forming device with breaking the dough crust (8),

- Baking flat bread during and / or after forming.