The invention relates to a dishwasher in the form of a commercial utensil washer or dishwasher which is designed as a batch dishwasher.
Batch dishwashers are manually loadable and unloadable dishwashers. Batch dishwashers (also referred to as “box-type warewashers”) may be a dish-rack-type pass-through dishwasher, also referred to as hood-type dishwashers (“hood-type warewashers”) or front loaders (“front loader warewashers”). Front loaders may be undercounter machines, countertop machines or free-standing dishwashers with front loading configuration (“free standing front loaders”).
A dishwasher in the form of a batch dishwasher normally has a treatment chamber for the cleaning of items of washware. In general, below the treatment chamber, there is arranged a wash tank into which liquid can flow back from the treatment chamber under the action of gravitational force. In the wash tank there is situated wash liquid, commonly water, to which detergents may be added if appropriate.
A dishwasher in the form of a batch dishwasher normally furthermore has a wash system with a wash pump, with a line system connected to the wash pump, and with a multiplicity of spray nozzles formed on at least one wash arm. The wash liquid situated in the wash tank can, by way of the wash pump, be delivered via the line system to the wash nozzles and sprayed through the wash nozzles in the treatment chamber onto the items of washware to be cleaned. The sprayed wash liquid subsequently flows back into the wash tank.
A dishwasher of said type in the form of a batch dishwasher is known for example from the document DE 10 2005 023 429 A1.
The expression “washware” used herein is to be understood in particular to mean dishes, glasses, cutlery, cooking utensils, baking utensils and serving trays.
The invention relates in particular to a dishwasher in the form of a commercial utensil washer or dishwasher which is designed as a batch dishwasher and is realized as a hood-type or pass-through dishwasher, wherein the dishwasher has a treatment chamber with at least one wash system, which is designed as a recirculation system.
Dishwashers of said type are used primarily (but not exclusively) in relatively small sculleries, for example in the case of relatively small cafeterias, in particular school cafeterias, or in the catering sector. What is characteristic of the use of such dishwashers is that they are used in sculleries in which, in general, only a limited installation area is available.
A commercial dishwasher in the form of a batch dishwasher, in particular hood-type or pass-through dishwasher, differs from a domestic dishwasher in particular in that a commercial dishwasher must be designed such that—depending on the selected treatment programme—programme running times of between one and five minutes can be realized, whereas domestic dishwashers generally have running times of up to 2.5 hours or longer. Owing to the short programme duration that is required in the case of commercial dishwashers, techniques used in domestic dishwashers generally cannot be readily transferred to commercial dishwashers.
Commercial dishwashers in the form of batch dishwashers normally operate in two main process steps: a first step, which comprises washing using a wash liquid, and a second step, which comprises final rinse using heated freshwater and dosed rinsing agent.
To be able to perform these process steps, a commercial dishwasher in the form of a batch dishwasher is generally equipped with two independent liquid systems. One liquid system is a wash water circuit which is responsible for the washing of the items of washware, wherein the washing is performed using recirculated water from the wash tank of the dishwasher. The other liquid system is a fresh water system which is responsible for the final rinse. The final rinse is performed using fresh water, preferably with fresh water from a water heater (boiler). The freshwater, after being sprayed, is likewise received in the wash tank of the dishwasher.
It is the main object of the final rinse to remove soapy water situated on the items of washware. Furthermore, the final rinse water that flows into the wash tank during the final rinse step serves for the regeneration of the wash water present in the wash tank.
Before fresh water as final rinse liquid is sprayed and is thus conducted into the wash tank of the dishwasher as a result of the final rinse process, an amount of wash liquid equivalent to the fresh water amount is pumped out of the wash tank.
Normally, commercial dishwashers in the form of batch dishwashers are equipped with multiple programmes. Said programmes differ primarily in terms of different lengths of programme running times of the washing process. The operator has the option to select a short wash programme in the case of lightly soiled items of washware or to select a correspondingly longer wash programme in the case of heavily soiled items of washware.
Commercial dishwashers which are in the form of batch dishwashers and which are designed for the batchwise loading and unloading of the treatment chamber with items of washware are in particular front-door machines or rack-type pass-through machines. In the case of front-door machines, the items of washware are placed into a rack, and the rack laden with items of washware is placed into the treatment chamber of the dishwasher through a front door and, after the cleaning process, is removed again through the front door. In the case of rack-type pass-through machines, the dish racks laden with items of washware are pushed manually into the treatment chamber from an entrance side and, after the end of a wash programme, are manually removed from the treatment chamber at an exit side. Front-door machines and rack-type pass-through machines comprise only a single treatment chamber for the treatment of the items of washware. Front-door machines may be undercounter machines or countertop machines.
Almost without exception, commercial dishwashers which are in the form of batch dishwashers and which are designed for the batchwise loading and unloading of the treatment chamber with items of washware are designed with infeed and/or run-out tables. On the infeed side of the dishwasher, it is normally the case that manual clearing and manual pre-washing of the soiled items of washware are performed. Furthermore, here, the soiled items of washware are loaded into special dish racks. The run-out side serves for the drying and unloading of the dish racks.
In particular in the case of dishwashers in the form of hood-type machines or rack-type pass-through machines, the washing plane is normally at the same level as the infeed and run-out tables. In this way, the washing racks to be cleaned can be easily and ergonomically pushed from the infeed table into the dishwasher and, after the end of the cleaning process, pushed out of the dishwasher onto the run-out table.
The expression “washing plane” used herein is to be understood to mean the horizontal plane in which the washing rack lies. In the treatment chamber of a dishwasher, the washing plane is generally defined by a guide system, in particular guide rails, by way of which an infeed table provided on the entrance side of the machine is received in the washing rack pushed through the treatment chamber.
Commercial batch dishwashers, in particular those in the form of hood-type dishwashers, are designed for cleaning large amounts of items of washware in as short a time as possible. In the case of hood-type dishwashers that are common nowadays, the duration of a preset standard programme, which is commonly used for normally soiled items of washware such as plates, bowls, cups and glasses, is only approximately 60 to 80 seconds. This yields a theoretical capacity of up to 45 to 60 racks per hour.
Depending on the items of washware and the level of soiling thereof, it may however be necessary to select a treatment programme with a longer duration in order to ensure a flawless cleaning result.
In this context, it is known from the prior art that commercial batch dishwashers have, for example, a special cutlery treatment programme (intensive treatment program) for improving the cleaning result specifically of cutlery. Such an intensive treatment programme lasts much longer than the abovementioned 60 to 80 seconds of the standard treatment program, for example approximately 360 seconds. It is thus clear that the capacity of the machine is greatly reduced if an intensive treatment programme is selected, because the treatment chamber is then occupied for much longer than would be the case with a standard treatment program.
In practice, this has the effect that special treatment programmes, which are normally provided as standard as an alternative to the standard treatment program, are generally, despite the improved washing performance, selected only seldomly by the operator of the dishwasher because the corresponding programme duration is considered to be too long, in particular in busy periods, that is to say during periods in which increased amounts of items of washware are encountered. Instead, it is often the case that the heavily soiled items of washware (in particular cutlery and GN containers) are likewise treated using the standard treatment program, and the low washing performance is compensated for by way of additional manual working steps, for example manual prewashing of heavily soiled GN containers, or separate pre-soaking of cutlery.
In the case of relatively heavily soiled items of washware, such as commonly the case, for example, with pots or pans, it is necessary in particular for the cycle length to be correspondingly increased in order to be able to achieve a flawless cleaning result. Normally, in the case of hood-type or pass-through dishwashers, the programme running time is lengthened to up to 10 minutes in order to be able to clean heavily soiled items of washware, in particular pots and pans with burnt-on food residues, in a hygienically flawless manner.
During said lengthened cycle times, the dishwasher consequently cannot be used for cleaning less heavily soiled items of washware, such as for example plates, cups, cutlery or glasses. In other words, for the cleaning of heavily soiled items of washware, in particular pans and pots, the dishwasher is blocked for a relatively long time, which in the case of relatively small sculleries, often leads to problems, because during this time, the soiled dishes that accumulate cannot be cleaned or processed further.
In practice, it is therefore the case in particular in busy periods that the dishwasher is used only for the cleaning of lightly soiled items of washware, such as for example plates, cups and glasses, whereas the heavily soiled washware (in particular pots and pans) are manually cleaned in order to prevent the dishwasher from becoming blocked for an excessively long time owing to the required longer cycle times.
Accordingly, the present invention is based on the object of further developing a commercial utensil washer or dishwasher which is realized as a hood-type or pass-through dishwasher, such as is generally known in principle from the prior art, such that, even in busy periods in sculleries, no bottlenecks occur in the cleaning of the items of washware that accumulate. In particular, it is sought to specify a solution with which the working processes in sculleries can be simplified and optimized, while simultaneously saving resources (energy, water and chemicals).
It is a further object to further develop a commercial utensil washer or dishwasher, which is realized as a hood-type or pass-through dishwasher, such that the capacity of the machine can be improved, even if a treatment programme is selected which leads to a longer cycle time than would be the case with a conventional standard treatment program. In particular, it is the intention here to simultaneously save resources (energy, water and chemicals).
To achieve said object, there is proposed in particular a dishwasher in the form of a commercial utensil washer or dishwasher which is designed as a batch dishwasher, wherein the dishwasher is realized as a hood-type or pass-through dishwasher, and wherein the dishwasher has a treatment chamber with at least one wash system which is designed as a recirculation system. According to the invention, the treatment chamber has a first treatment zone and at least one further, second treatment zone, wherein items of washware can be treated independently of one another and at least temporarily at the same time in the first and in the at least one second treatment zone.
The expression “can be treated independently of one another” used herein is to be understood in particular to mean the treatment-zone-specific treatment of the items of washware with regard to action time, washing and/or rinsing mechanism, and/or with regard to the selected treatment program. In other words, according to the invention, provision is made for the treatment chamber to be divided into at least two zones, wherein at least some of the parameters that characterize the treatment of the items of washware (such as for example the action time, the washing rinsing mechanism, the temperature and/or the composition of the wash liquid/final rinse liquid, etc.) can be set individually for each treatment zone.
In this context, it is conceivable for the two treatment zones to be designed to be physically, that is to say hermetically, separated from one another. This embodiment has the advantage in particular that different treatment programmes can be selected for the corresponding treatment zones of the treatment chamber. In this context, it is for example conceivable that, in one treatment zone, the items of washware are treated in accordance with a standard treatment program, whereas, in another treatment zone that is physically separate from the first treatment zone, the items of washware are treated in accordance with an intensive treatment program.
On the other hand, the present invention is not restricted to batch dishwashers in which the at least two treatment zones of the treatment chamber are physically (hermetically) separated from one another by way of a partition. According to a further aspect of the present invention, provision is rather made for the two treatment zones to be formed within a common treatment chamber, and in particular for no hermetic separation to be provided between the at least two treatment zones.
In the case of such embodiments, too, in which the at least two treatment zones are not hermetically separated from another, it is self-evidently also conceivable for the treatment of the items of washware to be performed with different action times in the different treatment zones. This is possible in particular even if one and the same treatment programme is selected for both treatment zones. In this context, it is for example conceivable that, in one of the two treatment zones, the items of washware remain in place for only one programme cycle, whereas, in the other treatment zone, the items of washware remain in place for more than one programme cycle, as a result of which the action time can be correspondingly multiplied.
In accordance with a preferred implementation of the solution according to the invention, provision is made for the at least two treatment zones to be arranged one above the other. In this context, it is expedient in particular for at least one of the at least two treatment zones, preferably each of the at least two treatment zones, to be designed to receive a washing rack, in which the items of washware for treatment in the respective treatment zone are received, in such a way that the lower region of the washing rack, on which the washing rack rests, is situated in a predefined or presettable horizontal washing plane.
In a preferred implementation of the dishwasher according to the invention, the first treatment zone can be closed by way of a vertically pivotable or slidable hood, and the at least one second treatment zone can be closed by way of a door formed separately from the hood. Here, provision is made in particular for the first and at least one second treatment zone to be arranged one above the other.
Here, it has proven to be advantageous for the first treatment zone to be formed as a main treatment zone and for the at least one second treatment zone to be formed as an auxiliary treatment zone. The dimensions and cleaning capacity of the main treatment zone (first treatment zone) and the dimensions and cleaning capacity of the auxiliary treatment zone (second treatment zone) are preferably adapted to the washware types (such as for example dishes, cutlery, glasses and pots) which are commonly encountered in sculleries and which are to be cleaned, to the quantities of items of washware to be cleaned, of each washware type, that are commonly encountered per unit of time, and/or to the level of soiling of the items of washware that are encountered per unit of time, in such a way that, during the operation of the dishwasher, all of the items of washware that accumulate can be cleaned as far as possible without delay, even during busy periods.
In this context, tests in various sculleries have shown that it is advantageous for the first treatment zone (main treatment zone) to have an effectively usable loading volume for the cleaning of items of washware which is 2 to 4 times greater than the effectively usable loading volume of the at least one second treatment zone. In particular, here, the first treatment zone is suitable for the cleaning of lightly soiled items of washware, which, in practice, are encountered in much greater quantities per unit of time than heavily soiled items of washware.
In a preferred implementation of the dishwasher, the effectively usable loading volume of the first treatment zone amounts to between 60 and 180 litres, and preferably between 80 and 150 litres, and is even more preferably approximately 120 litres. In this way, it is achieved that the cleaning capacity of the first treatment zone, that is to say the quantity of items of washware that can be cleaned per unit of time in the first treatment zone, corresponds to the cleaning capacity of a conventional hood-type or pass-through dishwasher such as is known from the prior art and which has only a single treatment zone.
With regard to the effectively usable loading volume of the at least one second treatment zone, it has proven to be advantageous for said loading volume to amount to between 25 and 75 litres and preferably between 30 and 50 litres. It is ensured in this way that, even during busy periods in sculleries, even relatively heavily soiled items of washware can be effectively cleaned in a short period of time.
In order that the dishwasher fits optimally into an established working process in a scullery, it is preferable for the footprint of the first treatment zone to have a dimension adapted to the footprint of a washing rack, and in particular a footprint of 600 mm×50 mm, 500 mm×500 mm or 400 mm×400 mm. Accordingly, the items of washware that have been loaded into washing racks can be treated in batchwise fashion in the first treatment zone.
In a preferred refinement of the dishwasher according to the invention, the first treatment zone can be closed by way of a vertically pivotable or slidable hood, wherein the hood is designed such that it can be pivoted or slid vertically upward by at least 300 mm, preferably by at least 400 mm. In this way, an adequately large entrance height is ensured, such that even relatively large items of washware, such as for example trays, can be easily introduced into and removed from the first treatment zone. In this context, it is furthermore advantageous if the first treatment zone has an effective height of at least 400 mm for the cleaning of items of washware.
With regard to the internal dimensions of the at least one second treatment zone, it is advantageous for said at least one second treatment zone to be adapted to the dimensions of commonly used pans and/or pots, because this washware type is generally the most heavily soiled. In accordance with one implementation of the dishwasher according to the invention, the at least one second treatment zone has, for this purpose, an effective height of at least 120 mm, and preferably of at least 150 mm, for the cleaning of items of washware.
In order that the dishwasher according to the invention can be used without problems even in relatively small sculleries, the dishwasher has, in the closed state of the treatment zones, a width of between 500 mm and 800 mm, and preferably of between 600 mm and 800 mm, a depth of between 700 mm and 900 mm, and preferably of between 750 mm and 850 mm, and a height of between 1350 mm and 1600 mm, and preferably of between 1400 mm and 1550 mm.
According to a further aspect of the present invention, the dishwasher has a wash system, which is designed as a recirculation system, for spraying wash liquid in the treatment chamber as required, and has at least one final rinse system for spraying final rinse liquid in the treatment chamber as required. Furthermore, a control device is provided for the control of the at least one wash system and/or of the at least one final rinse system. Here, the control device is preferably designed to control the at least one wash system such that the wash cycle of each treatment cycle in the first treatment zone is uninterrupted in terms of time, whereas the wash cycle of a single treatment cycle in the at least one second treatment zone is intermittent. In this way, even using only a single wash pump and without the use of a valve controller, it is possible for the action times of the wash liquid in the individual treatment zones to be set to any desired values in each case.
In a refinement of the latter embodiment, it is provided in this context that the control device is furthermore designed to control the at least one wash system such that wash liquid is always sprayed simultaneously in the first and in the at least one second treatment zone.
With regard to the at least one final rinse system, provision is preferably made whereby the control device is designed to control the at least one final rinse system such that a final rinse cycle in the at least one second treatment zone always takes place simultaneously, or at least with a time overlap, with respect to a final rinse cycle in the first treatment zone. In this way, the risk of recontamination of the items of washware is minimized, which applies in particular to embodiments in which the treatment zones are not hermetically separated from one another.
In order to achieve that the dishwasher operates as efficiently as possible in terms of time, provision is made, in a preferred implementation of the dishwasher, whereby the treatment cycles in the first and in the at least one second treatment zone are adapted to one another in terms of time. For this purpose, it is conceivable, by way of the control device, for the at least one wash system to be controlled such that the time duration of a wash cycle of a single treatment cycle in the at least one second treatment zone corresponds to the total time duration of the wash cycles of a multiplicity of treatment cycles in the first treatment zone.
The expression “treatment cycle” used herein is to be understood to mean the cycle to which the respective items of washware in the corresponding treatment zone of the dishwasher are subjected before the items of washware are can be removed from the treatment zone again in the cleaned state. Normally, therefore, a treatment cycle is made up of a wash cycle and of a subsequent final rinse cycle. During a wash cycle, wash liquid is sprayed onto the items of washware, wherein, during a final rinse cycle, final rinse liquid is sprayed onto the items of washware.
Alternatively or in addition to the latter embodiment, it is conceivable, by way of the control device, for the at least one wash system to be controlled such that the time duration of a wash cycle of a single treatment cycle in the at least one second treatment zone is an integer multiple of the time duration of a wash cycle in the first treatment zone.
In a preferred refinement of the dishwasher according to the invention, the control device is furthermore designed to control the at least one wash system and/or the at least one final rinse system such that a wash cycle in the at least one second treatment zone is automatically, preferably selectively automatically, interrupted if at least one of the following conditions is met:
In this way, the respective final rinse cycle of the individual treatment zones can be optimally adapted, which saves resources, in particular fresh water and energy.
In a refinement of the invention, to be able to achieve the most efficient possible treatment of the items of washware in the treatment zones, provision is made whereby, for the treatment zones, the treatment parameters are selected as far as possible individually and in a manner adapted to the items of washware to be cleaned.
In this context, it is conceivable for the at least one wash system to be controlled such that, during a wash cycle:
Alternatively or in addition to this, it is conceivable that, by way of the control device, the at least one final rinse system is controlled such that, during a final rinse cycle:
The invention is directed not only to an in particular hood-type or pass-through dishwasher in which at least two treatment zones are provided in the treatment chamber of the dishwasher but also to a corresponding method for operating a dishwasher of said type.
According to the invention, the method has the following method steps:
According to a further aspect of the present invention, to carry out the method according to the invention, the dishwasher has a control device for controlling the at least one wash system of the dishwasher in accordance with a preset programme sequence, wherein, in the control device, there is stored at least one preset programme sequence for the first treatment zone and/or the at least one second treatment zone. In particular, in the control device, there is stored a multiplicity of preset programme sequences for the first treatment zone and/or the at least one second treatment zone, in order to enable the operator to select the most suitable treatment parameters possible.
To reduce the operating effort in the programme selection process, provision is made, in a preferred refinement of the latter embodiments, that, in the control device, there is stored at least one programme sequence group with a fixed programme sequence for the first treatment zone and a fixed programme sequence for the at least one second treatment zone.
In this context, it is conceivable in particular that the operator can optionally select one programme sequence from the multiplicity of preset programme sequences for the first treatment zone and, independently of this, can select one programme sequence from the multiplicity of preset programme sequences for the at least one second treatment zone, or can select a preset programme sequence group.
The programme sequences of the programme sequence group are preferably selected in a manner dependent on at least one of the following factors:
In a preferred implementation of the latter embodiments, provision is made whereby the programme sequence group has, for the first treatment zone, a programme sequence in which the time duration for a wash cycle of the first treatment zone amounts to 40 to 70 seconds (short program), 70 to 120 seconds (standard program) or 2 to 5 minutes (intensive program). With regard to the programme sequence for the at least one second treatment zone, provision is made here whereby, in accordance with this programme sequence, the time duration for a wash cycle in the at least one second treatment zone is identical to the time duration for a wash cycle in the first treatment zone.
Alternatively or in addition to this, it is conceivable for the programme sequence group to have, for the at least one second treatment zone, a programme sequence in which the time duration for a wash cycle in the at least one second treatment zone amounts to 40 to 70 seconds (short program), 70 to 120 seconds (standard program) or 4 to 10 minutes (intensive program).
According to a further aspect of the present invention, provision is made whereby the dishwasher has at least one user interface with at least one in particular manually or optically actuable input panel for the manual selection of at least one treatment programme for the first and/or at least one second treatment zone.
An “manually actuable input panel” is to be understood in particular to be a keyboard or the like, whereas an “optically actuable input panel” is an input panel which can be actuated by radio, IR. WLAN or a similar wireless communication connection.
Here, in accordance with a preferred implementation, provision is made whereby a common user interface is provided for the first and at least one second treatment zone. Said common user interface is preferably arranged in the upper region of the vertical pivotable or slidable hood by way of which the first treatment zone can be closed. In this way, it is ensured that the operator of the machine can manually actuate the input panel only when the first treatment zone is closed.
As an alternative to this, it is however self-evidently also conceivable for in each case one user interface to be provided for the first and at least one second treatment zone.
In a preferred implementation of the invention, provision is made whereby the at least one user interface is designed for outputting, preferably by optical and/or acoustic means, information regarding a system state of the dishwasher.
Alternatively or in addition, it is conceivable for the at least one user interface to have at least one in particular optical or manually actuable input panel, in particular keyboard, for manual intervention into a treatment cycle of the first treatment zone and/or into a treatment cycle of the at least one second treatment zone.
In this context, it is furthermore conceivable for the at least one user interface to have a first manually actuable input panel, in particular keyboard, for starting and/or ending a treatment cycle in the first and/or at least one second treatment zone, and a second, in particular manually or optically actuable input panel which is formed separately from the first input panel and which serves for the accessing of information relating to a system state of the dishwasher and/or for manual intervention into a treatment cycle of the first and/or at least one second treatment zone and/or for the accessing and/or selection of programme parameters for the first and/or at least one second treatment zone.
In a particularly preferred embodiment of the dishwasher according to the invention, the first and the at least one second treatment zone are physically separated from one another by means of a partition in such a way that, when wash liquid is sprayed in one of the two treatment zones, recontamination in the other treatment zone which is caused in particular by said spraying operation is effectively prevented.
Here, it is preferably the case that the wash system of the dishwasher is assigned to the first and to the at least one second treatment zone. The wash system has a wash pump system and a wash nozzle system, wherein the wash pump system, at the intake side, forms a flow connection or can form a flow connection with the wash tank for the purposes of supplying liquid which has collected in the wash tank to the wash nozzle system as required.
Here, in a preferred implementation of the dishwasher, the wash nozzle system has a large number of wash nozzles which are associated with the first treatment zone and has a large number of wash nozzles which are associated with the second treatment zone, wherein, when the wash pump system is operated, the liquid which has collected in the wash tank is supplied as wash liquid both to the wash nozzles which are associated with the first treatment zone and also to the wash nozzles which are associated with the second treatment zone.
Here, provision is made in particular for at least some of the wash nozzles, in particular at least some of the wash nozzles which are associated with the at least one second treatment zone, to be designed as wash nozzles which are stationary in relation to the corresponding treatment zone.
According to a further aspect of the invention, it is provided here that at least some of the stationary wash nozzles are formed in the partition and/or in at least one wash arm which is stationary in relation to the corresponding treatment zone.
For example, the partition may have a partition element, in particular a partition plate, which runs substantially horizontally and is arranged or can be arranged between the first and the at least one second treatment zone, and also has a line system which is arranged on the partition element, wherein the line system which is arranged on the partition element forms a flow connection or can form a flow connection with the wash pump system, and wherein at least some of the wash nozzles, which are stationary in the partition, are realized in the line system which is arranged on the partition element or form a flow connection at least with the line system which is arranged on the partition element.
In a preferred implementation of the dishwasher according to the invention, the wash nozzles which are associated with the at least one second treatment zone are formed in an upper wash arm system which is arranged in an upper region of the at least one second treatment zone and in a lower wash arm system which is arranged in the lower region of the at least one second treatment zone, wherein the upper and/or the lower wash arm system are/is stationary in relation to the at least one second treatment zone.
Provision is particularly preferably made whereby a dedicated final rinse system with in each case a final rinse pump and final rinse nozzles is associated with each treatment zone of the dishwasher.
Here, it is preferably the case that at least some of the final rinse nozzles, in particular at least some of the final rinse nozzles which are associated with the at least one second treatment zone, are designed as final rinse nozzles which are stationary in relation to the corresponding treatment zone.
In particular, it is preferable if at least some of the stationary final rinse nozzles are formed in the partition and/or in at least one final rinse arm which is stationary in relation to the corresponding treatment zone.
In a particularly preferred implementation of the dishwasher according to the invention, the partition has a partition element, in particular partition plate, which runs substantially horizontally and is arranged or can be arranged between the first and the at least one second treatment zone, and also has a line system which is arranged on the partition element, wherein the line system which is arranged on the partition element forms a flow connection or can form a flow connection with the final rinse pump which is associated with the second treatment zone, and wherein at least some of the final rinse nozzles, which are stationary in the partition, are realized in the line system which is arranged on the partition element or form a flow connection at least with the line system which is arranged on the partition element.
Below, the invention will be described in more detail with reference to the exemplary embodiments illustrated in the drawings, in which:
The invention relates to commercial dishwashers, in particular dishwashers or utensil washers, in the form of batch dishwashers. In particular, the present invention relates to batch dishwashers designed as hood-type or (rack-type) pass-through dishwashers.
A commercial dishwasher 1 designed as a batch dishwasher has, as is conventional, a programme control device (also referred to here as “control device 100”) for the control of at least one cleaning program, and has a treatment chamber 2, which can be closed by way of at least one door 9 and/or at least one hood 8, in a machine housing for receiving items of washware to be cleaned, such as for example dishes, cutlery, pots, pans, trays and glasses.
As can be seen in particular from the illustrations in
The action time, that is to say the time during which the cleaning or wash liquid wets the items of washware within the treatment chamber 2 is dependent in particular on the duration of the wash phase defined by way of the treatment program. For normally soiled items of washware, such as plates, bowls, cups and/or glasses, a cleaning cycle composed of a wash phase and of a subsequent final rinse phase generally requires between 50 and 100 seconds. However, longer treatment of the items of washware may be necessary, in particular if these are relatively heavily soiled, or if dirt has burned onto the items of washware. Lengthening of the overall treatment time to up to 400 seconds is then often necessary. As a result of the lengthened action time, the items of washware to be cleaned are subjected to intensive treatment, such that even relatively heavily soiled items of washware can be effectively cleaned.
To ensure that, despite an intensive treatment, the cleaning capacity of the dishwasher 1, that is to say the items of washware/washware racks 5 that can theoretically be processed by the machine 1 per unit of time, is not adversely affected, provision is made, according to the invention, for the treatment chamber 2 of the dishwasher 1, which is designed as a batch dishwasher, to be divided into at least two treatment zones 6, 7, wherein the at least two treatment zones 6, 7 are designed such that the treatment of the items of washware in the individual treatment zones 6, 7 can be performed independently of one another.
Even though the exemplary embodiments of the dishwasher 1 according to the invention illustrated in the drawings are each formed with precisely two treatment zones 6, 7, this is not to be regarded as being restrictive. Rather, it is self-evidently also conceivable for the treatment chamber 2 of the dishwasher 1 according to the invention to be divided into more than two zones.
As illustrated byway of example in
For this purpose, the footprint of the first treatment zone or main treatment zone 6 has dimensions adapted to the footprint of a washing rack 5, and in particular a footprint of 600 mm×500 mm, 500 mm×500 mm, or 400 mm×400 mm.
Furthermore, the main treatment zone 6 is designed such that the washing rack 5 can be pushed from an infeed table 3 (not illustrated in
In particular, in the case of the dishwasher 1 shown in
It is preferable if, furthermore, a run-out table 4 is provided, wherein the table height of the run-out table 4 is likewise aligned horizontally with the washing plane 6a of the main treatment zone 6, such that the washing rack 5 can, after the treatment in the main treatment zone 6, be pushed directly onto the run-out table 4.
As already indicated, a further treatment zone 7 is formed below the main treatment zone 6. Said further treatment zone 7, which will hereinafter also be referred to as “second treatment zone” or “auxiliary treatment zone”, serves in particular for the cleaning of items of washware which require a relatively long action time in relation to the items of washware to be cleaned in the first treatment zone 6.
In the case of the exemplary embodiment illustrated in
Specifically, the dimensions and cleaning capacity of the main treatment zone (first treatment zone 6) and the dimensions and cleaning capacity of the auxiliary treatment zone (second treatment zone 7) are preferably adapted to the washware types (such as for example dishes, cutlery, glasses and pots) which are commonly encountered in sculleries and which are to be cleaned, to the quantities of items of washware to be cleaned, of each washware type, that are commonly encountered per unit of time, and/or to the level of soiling of the items of washware that are encountered per unit of time, in such a way that, during the operation of the dishwasher 1, all of the items of washware that accumulate can be cleaned as far as possible without delay, even during busy periods.
Therefore, in the embodiment of the dishwasher 1 according to the invention shown in
As illustrated, in the exemplary embodiment of the invention schematically illustrated in
On the hand, the second treatment zone 7 has an effective height of at least 120 mm, and preferably of at least 150 mm, for the cleaning of items of washware, such that cutlery that is received in cutlery racks can also be cleaned in said treatment zone 7.
In addition to this, the second treatment zone 7 has a dedicated closable opening by which said treatment zone 7 can be loaded with items of washware and unloaded.
In the case of the exemplary embodiment illustrated in
Here, it is advantageous in particular for the door 9, which is pivotable about a horizontal pivot axis, to be designed such that, in its open state, it is aligned horizontally with the washing plane 7a of the further treatment zone 7. In this way, in its open state, the door 9 simultaneously serves as a loading and unloading aid for the pushing-in or pushing-out of the items of washware or of the washing rack 5.
In the same way as the height of the horizontal washing plane 6a of the first treatment zone 6, the height of the horizontal washing plane 7a of the second treatment zone 7 is also variably adjustable, and amounts to preferably 350 mm to 600 mm, and even more preferably 500 mm to 600 mm (measured from the ground of the installation room).
The run-out side serves for the drying and unloading of the washing racks. As illustrated in
As can be seen in particular from the schematic illustration in
With regard to the embodiments of the dishwasher 1 according to the invention shown in
In order, for example, to clean the items of washware that accumulate in the case of a total of 150 menu options, a conventional dishwasher which has only a single treatment zone requires a total of 67 minutes, with fresh water consumption of 100 litres and energy consumption of 2.9 kWh (in the case of a standard treatment program).
By contrast, with the dishwasher 1 according to the invention, the treatment duration can be reduced to below 50 minutes, specifically with fresh water consumption of 72.5 litres and energy consumption of 2.1 kWh.
Below, with reference to the illustrations in
Although it is basically conceivable for the dishwasher 1 according to the present invention to be equipped with multiple wash tanks, wherein in each case one wash tank is assigned to one treatment zone 6, 7, provision is made, in the preferred exemplary embodiments of the solution according to the invention illustrated in the drawings, whereby the dishwasher 1 has in each case only a single wash tank 12 which is assigned to the (single) treatment chamber 2 and which is thus assigned jointly to the individual treatment zones 6, 7 of the (single) treatment chamber 2.
The wash tank 12 preferably has a capacity of 20 to 40 litres, preferably 25 to 35 litres. This capacity is firstly sufficient for simultaneous final rinse operation in both treatment zones 6, 7. Secondly, the tank 12 is selected to be so small that it can, as before, be accommodated in the reduced installation space—in relation to a conventional machine which has only a single treatment zone—in the machine housing.
As illustrated in the hydraulic diagrams in
In the hydraulic diagram illustrated in
In the embodiment schematically illustrated in
In the hydraulic diagram shown in
The present invention is self-evidently not restricted to this aspect. As can be seen from the hydraulic diagram as per
The wash nozzles 11.1, 11.2 integrated into the corresponding wash arms 10.1-10.4 are directed in each case toward the correspondingly associated treatment zone 6, 7 in the treatment chamber 2 and serve to spray the wash liquid, which is delivered by the common wash pump 13, onto the items of washware which are arranged in the respective treatment zones 6, 7 and which are to be cleaned.
The sprayed wash liquid falls back into the wash tank 12 under the action of gravitational force. In this way, the wash tank 12, the wash pump 13, the wash liquid system 16 and the wash nozzles 11, together with the treatment zones 6, 7 of the treatment chamber 2, form a wash liquid circuit. The wash liquid line system 16 connects the pressure side of the wash pump 13 to the wash nozzles 11.1, 11.2.
Furthermore, a final rinse system is provided for the delivery of final rinse liquid by way of a final rinse pump 14 through a final rinse line system 17 to final rinse nozzles 15a, 15b, which final rinse nozzles are directed, in the treatment chamber 2, toward the region of the items of washware to be cleaned. The sprayed final rinse liquid falls from the treatment chamber 2 into the wash tank 12 under the action of gravitational force. The final rinse system 17 connects the pressure side of the final rinse pump 14 to the final rinse nozzles 15.1, 15.2.
As already stated, the wash nozzles 11.1, 11.2 and the final rinse nozzles 15.1, 15.2 may be arranged in the regions above and/or below, and if desired also to the sides, of the respective treatment zone 6, 7 within the treatment chamber 2, and may in each case be directed toward the region in which the items of washware are positioned in the corresponding treatment zone.
It is preferably the case that, for each treatment zone 6, 7, a large number of wash nozzles 11.1 and 11.2 are provided on at least one upper wash arm 10.1 and 10.3 respectively, a large number of wash nozzles 11.1 and 11.2 are provided on a lower wash arm 10.2 and 10.4 respectively, a large number of final rinse nozzles 15.1 and 15.2 are provided on at least one upper final rinse arm 18.1 and 18.3 respectively, and a large number of final rinse nozzles 15.1 and 15.2 are provided on at least one lower final rinse arm 18.2 and 18.4 respectively. As already stated, it is possible here for the lower wash arm 10.2 of the upper, main treatment zone 6 and the upper wash arm 10.3 of the lower, auxiliary treatment zone 7 to be formed as a common wash arm (cf.
As an alternative to this, it is nevertheless conceivable for separate wash or final rinse arms 10.1-10.4 and 18.1-18.4, respectively, to be provided for each of the at least two treatment zones 6, 7, as indicated in the hydraulic diagram in
Before final rinse liquid is sprayed during the final rinse phase, an amount of wash liquid equivalent to the final rinse liquid amount is in each case pumped out of the wash tank 12 by way of a discharge pump (not illustrated in the drawings), the suction side of which is connected via a discharge line to a sump of the wash tank 12. If, before an initial start of the dishwasher 1 which is designed as a batch dishwasher, the wash tank 12 is empty, it must firstly be filled with fresh water via a fresh water line (not shown), or filled with fresh water, or some other final rinse liquid or wash liquid, by way of the final rinse system and the final rinse pump 14 thereof.
The final rinse liquid may be freshwater or fresh water mixed with final rinse agent. By contrast, the wash liquid comprises detergent which is dosed preferably automatically to the liquid contained in the wash tank 12 by a detergent dosing device (not shown). The abovementioned programme control device controls the wash pumps 13, the final rinse pump 14, the drainage pump and the detergent solution pump (not shown) in a manner dependent on the cleaning programme respectively selected by an operator by way of the programme control device. At least one cleaning programme is provided; it is preferable for multiple selectable cleaning programmes to be provided.
From the hydraulic diagrams illustrated in the drawings, it can be seen that, furthermore, a final rinse pump 14 is connected by way of its suction side to an outlet of a boiler 22. The boiler 22 furthermore has an inlet which is connected to a fresh water supply line 30, via which either fresh water, or fresh water with dosed final rinse agent, is supplied to the boiler 22. In the boiler 22, the liquid (pure fresh water or fresh water with dosed final rinse agent) supplied via the inlet is heated up in accordance with a process sequence. By way of the final rinse pump 14, which is connected by way of its suction side to the boiler outlet, the final rinse liquid that is heated up in the boiler 22 can be supplied, for example during a fresh water final rinse phase, via the final rinse line system 17 to the final rinse nozzles 15.1 and 15.2. The final rinse nozzles 15.1 and 15.2 are arranged in the treatment zones 6, 7 of the treatment chamber 2 in order to spray the final rinse liquid, which has been heated up in the boiler 22, onto the items of washware in the corresponding treatment zone 6, 7 of the treatment chamber 2. It is self-evidently also conceivable for the boiler 22 to be supplied with pure fresh water via the inlet into the fresh water supply line 30, which pure fresh water has a final rinse agent dosed into it after the heating process in the boiler 22.
Also, in this context, it is conceivable for the final rinse system to have a preferably electrically operated steam generator, which may for example be integrated into the boiler 22. In this case, at the upper region of the boiler 22, there may be formed a corresponding steam outlet of the steam generator (not illustrated in the drawings). Via a steam line, the steam outlet of the steam generator may be connected, at a position situated above the wash tank, to the treatment chamber in order to introduce steam, which has been generated in the steam generator, into said treatment chamber as required. Other positions are however self-evidently also possible.
In the boiler 22, which according to some embodiments of the invention serves not only for heating the final rinse liquid but also for the generation of steam as required, there is situated a heater 47. Furthermore, in or at the boiler 22, there may be arranged a level sensor which, for example, controls a valve 49 of the fresh water line 30.
From the hydraulic diagram illustrated in
Specifically, the control device 100 that is schematically indicated in
Furthermore, in the exemplary embodiments of the dishwasher 1 according to the invention illustrated in the drawings, the control device 100 is furthermore designed to control the preferably common wash pump 13 such that wash liquid is always sprayed simultaneously in the first and in the second treatment zone 6, 7.
With regard to the final rinse system of the dishwasher 1, the control device 100 is designed to control the two final rinse pumps 14.1, 14.2 such that a final rinse cycle in the second treatment zone 7 always takes place simultaneously, or at least with a time overlap, with respect to a final rinse cycle in the first treatment zone 6.
Here, it is advantageous if the control device 100 is furthermore designed to control the preferably common wash pump 13 such that the time duration of a wash cycle of a single treatment cycle in the second treatment zone 7 corresponds to the total time duration of the wash cycles of a multiplicity of treatment cycles in the first treatment zone 6. In particular, in this context, it is conceivable that, by way of the control device 100, the preferably common wash pump 13 is controlled such that the time duration of a wash cycle of a single treatment cycle in the second treatment zone 7 is an integer multiple of the time duration of a wash cycle in the first treatment zone 6.
In the embodiments of the dishwasher 1 according to the invention illustrated in the drawings, provision is basically made for the control device 100 to be designed to control the at least one wash system and/or the at least one final rinse system such that a wash cycle in the second treatment zone 7 is automatically, preferably selectively automatically, interrupted if at least one of the following conditions is met:
The control of the wash system and/or final rinse system is preferably performed automatically. In other words, the control of the at least one wash and/or final rinse system is preferably performed in accordance with a preset programme sequence, wherein, in the control device 100, there is stored at least one preset programme sequence for the first treatment zone 6 and/or the at least one second treatment zone 7. It is preferable for a multiplicity of preset programme sequences for the first treatment zone 6 and/or the at least one second treatment zone 7 to be stored in the control device 100.
In this context, it is conceivable that, in the control device 100, there is stored at least one programme sequence group with a fixed programme sequence for the first treatment zone 6 and a fixed programme sequence for the at least one second treatment zone 7. Here, the operator of the dishwasher 1 can optionally select one programme sequence from the multiplicity of preset programme sequences for the first treatment zone 6 and, independently of this, can select one programme sequence from the multiplicity of preset programme sequences for the at least one second treatment zone 7, or can select a preset programme sequence group.
It is advantageously the case that, in the control device 100, there is stored at least one programme sequence group with a fixed programme sequence for the first treatment zone 6 and a fixed programme sequence for the at least one second treatment zone 7, and wherein the programme sequences of the programme sequence group are selected in a manner dependent on at least one of the following factors:
It is furthermore preferable if, in the control device 100, there is stored at least one programme sequence group with a fixed programme sequence for the first treatment zone 6 and a fixed programme sequence for the at least one second treatment zone 7, wherein the programme sequence group has, for the first treatment zone 6, a programme sequence in which the time duration for a wash cycle of the first treatment zone amounts to 40 to 70 seconds, 70 to 120 seconds or 2 to 5 minutes, and wherein the programme sequence group has, for the at least one second treatment zone 7, a programme sequence in which the time duration for a wash cycle in the second treatment zone 7 is identical to the time duration for a wash cycle in the first treatment zone 6.
On the other hand, it is preferable if, in the control device 100, there is stored at least one programme sequence group with a fixed programme sequence for the first treatment zone 6 and a fixed programme sequence for the at least one second treatment zone 7, wherein the programme sequence group has, for the first treatment zone 6, a programme sequence in which the time duration for a wash cycle of the first treatment zone amounts to 40 to 70 seconds, 70 to 120 seconds or 2 to 5 minutes, and wherein the programme sequence group has, for the at least one second treatment zone 7, a programme sequence in which the time duration for a wash cycle in the second treatment zone amounts to 40 to 70 seconds, 70 to 120 seconds or 4 to 10 minutes.
Below, a further embodiment of the present invention will be described in more detail with reference to the illustration in
As illustrated in the hydraulic diagram in
It is also the case in the embodiment schematically illustrated in
In the embodiment schematically illustrated in
By contrast to the embodiment shown for example in
The lower (auxiliary) treatment zone 7 is likewise assigned corresponding wash arm systems. Specifically, and as will be described in more detail below with reference to the illustrations in
By contrast, in the embodiment illustrated in
As is also the case in the embodiment schematically illustrated, for example, in
The sprayed wash liquid then falls, under the action of gravitational force, back into the (single) wash tank 12, which in the embodiment illustrated in
In the embodiment of the dishwasher 1 according to the invention schematically illustrated in
As is also the case in the dishwasher 1 schematically illustrated in
The upper treatment zone 6 is assigned corresponding final rinse nozzles 15.1, to which, during a final rinse phase, fresh water or fresh water with dosed final rinse agent is supplied byway of the final rinse pump 14.1. The final rinse nozzles 15.1 of the upper treatment zone 6 are, like the corresponding wash nozzles 11.1, preferably integrated in final rinse arms which are mounted so as to be rotatable relative to the upper treatment zone 6.
It is preferable for at least some of the final rinse nozzles 15.2 of the lower treatment zone 7 to be designed as final rinse nozzles which are arranged so as to be stationary, that is to say to be formed in a final rinse arm which is arranged so as to be stationary relative to the lower treatment zone 7. In the exemplary embodiment illustrated in
As will be described in detail below with reference to the illustration in
The partition element is preferably a partition plate which can be fixed in the treatment chamber 2 and which serves for physically separating the first and second treatment zones 6, 7 from one another in such a way that, when wash liquid in particular is sprayed in one of the two treatment zones 6, 7, recontamination in the other treatment zone 7, 6 which is caused in particular by said spraying operation is effectively prevented.
Specifically, and as emerges for example from the illustrations in
Specifically, and as emerges in particular from the illustrations in
In particular, it also emerges from the illustration in
It also emerges from the illustrations in
The (upper) wash arm 10.3, which is used in this embodiment, of the lower treatment zone 7 is illustrated once again in
In order to make it possible for final rinse liquid to be sprayed in the corresponding treatment zones 6, 7 in a final rinse phase, the upper treatment zone 6 is formed with an upper and a lower final rinse arm 18.1, 18.2. Said two final rinse arms 18.1, 18.2 are preferably designed as final rinse arms formed detachably with the corresponding wash arm 10.1, 10.2.
For this purpose, it is for example conceivable for use to be made of a clip mechanism such as is described in DE 20 2014 105 112 U1.
The lower treatment zone 7 is likewise equipped with a rotatable final rinse arm (lower final rinse arm 18.4, which is likewise preferably detachably connectable to the corresponding wash arm 10.4.
Final rinse nozzles are likewise provided in the upper region of the lower treatment zone 7, which final rinse nozzles are however integrated in final rinse arm segments 15.3 which are arranged so as to be stationary relative to the treatment zone 7, as can be seen in particular from the illustration in
Specifically, in this embodiment which is illustrated by way of example, provision is made whereby corresponding final rinse arm segments are formed on the underside of the partition element 51 in the form of a partition plate, and in particular in the peripheral region of the partition element 51, in order to supply final rinse liquid to the corresponding final rinse nozzles as required.
Below, a further embodiment of the dishwasher 1 in the form of a batch dishwasher will be described with reference to the hydraulic diagram schematically illustrated in
As illustrated, the dishwasher 1 has a single treatment chamber 2 which is divided into an upper (main) treatment zone 6 and a lower (auxiliary) treatment zone 7. As will be described in more detail below with reference to the illustrations in
As is also the case in the embodiment of the dishwasher 1 according to the invention described above, provision is made, in the case of the dishwasher 1 schematically illustrated in
The wash tank 12 is situated below the treatment chamber 2 of the dishwasher 1 and serves for receiving liquid that has been sprayed in the respective treatment zones 6, 7. The capacity of the wash tank 12 amounts to 20 to 40 litres, preferably 25 to 35 litres. It is also the case in the embodiment schematically illustrated in
As is also the case in the embodiment described above with reference to the illustration in
As is also the case in the embodiment of the dishwasher 1 according to the invention illustrated, for example, in
Different embodiments of said (common) wash arm will be described below with reference to the illustrations in
In addition to said common wash arm, the upper treatment zone 6 is assigned a further wash arm 10.1 which is mounted in the upper region of the treatment zone 6, preferably so as to be rotatable about a vertical axis relative to the treatment zone 6. Corresponding wash nozzles 11.1 are likewise formed in said wash arm 10.1.
In the same way, an additional wash arm 11.4 with corresponding wash nozzles 11.2 is provided in the lower region of the lower treatment zone 7. Like the upper wash arm 10.1 of the upper treatment zone 6, the lower wash arm 10.4 of the lower treatment zone 7 is designed to be rotatable relative to said treatment zone.
In the embodiment of the dishwasher 1 according to the invention schematically illustrated in
As will be described in more detail below with reference to the illustrations in
It is preferably the case that the final rinse arms 18.1, 18.2 of the upper treatment zone 6 are designed to be rotatable relative to said treatment zone. In particular, a solution such as is described—at least in principle—in the document DE 20 2014 105 112 U1 is expedient here.
By contrast, the final rinse nozzles 15.2 assigned to the lower treatment zone 7 are preferably formed in final rinse arms 18.2 which are arranged so as to be stationary relative to the treatment zone 7. In this way, it is possible for the final rinse nozzles 15.2 to be integrated in the lower treatment zone 7 in as space-saving a manner as possible.
As can be seen for example from the exploded illustration in
It is however self-evidently also conceivable for the final rinse arms 18.2 to be provided in other regions of the lower treatment zone 7, in particular in a central arrangement, wherein then, the final rinse nozzles 15.2 formed in the final rinse arms 18.2 should be oriented both upward and downward.
It also emerges from the illustration in
For this purpose, in the rear region of the partition element 51, there is provided a recess 53 which is designed so as to be adapted to the duct housing 60 of the final rinse line system or wash liquid line system.
As emerges in particular from the illustration in
Below, with reference to the illustration in
Specifically, the embodiment of the user interface 110 illustrated in
The present invention is self-evidently not restricted to embodiments in which a common user interface 110 is used for all treatment zones 6, 7 of the dishwasher 1. In particular, it is conceivable for in each case one user interface to be provided for the first and at least one second treatment zones 6, 7. Here, it would be expedient for the user interface 110 for the first treatment zone 6 to be arranged in the upper region of the hood 8 and for the user interface 110 for the at least one second treatment zone 7 to be arranged above the door 9, which is formed separately from the hood 8.
As indicated in
Furthermore, the user interface 110 is equipped with an input panel 111 in order to enable the user to manually intervene in a treatment cycle of the first treatment zone 6 and/or in a treatment cycle of the at least one second treatment zone 7.
In particular, the user interface 110 schematically illustrated in
In summary, it is accordingly evident that the solution according to the invention provides at least one additional treatment zone 7, specifically in particular for items of washware, such as cutlery or GN containers, which are generally relatively heavily soiled and which thus require a relatively long washing duration. In this way, the washing performance can be improved by virtue of the programme duration of the additional treatment zone 7 being lengthened, specifically to the extent required for the type of washware to be treated in said treatment zone 7 in order to ensure a flawless washing result. In addition to this, despite the use of the intensive programme in the additional treatment zone 7, the capacity of the main wash zone 6 is not adversely affected, that is to say is not reduced.
For example, by way of the main treatment zone 6, it is possible for five racks to be treated using a standard treatment programme while, furthermore, in the lower or additional treatment zone 7, one rack is treated simultaneously, that is to say in parallel therewith, using an intensive treatment program.
It is thus possible for the existing treatment zone 6 to be operated without capacity losses for the normally soiled items of washware in relation to current machines, specifically with a simultaneous improvement of the washing result for relatively heavily soiled items of washware, because these can be cleaned in parallel therewith in the additional treatment zone 7, for example using a special intensive treatment program.
The invention is not restricted to the exemplary embodiments that are illustrated purely by way of example in the drawings, but rather emerges from an overall view of all of the features and aspects disclosed herein.
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10 2015 111 994.3 | Jul 2015 | DE | national |
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