US20020017033A1 - Method and apparatus for drying or heat-treating products - Google Patents
Method and apparatus for drying or heat-treating products Download PDFInfo
- Publication number
- US20020017033A1 US20020017033A1 US09/911,303 US91130301A US2002017033A1 US 20020017033 A1 US20020017033 A1 US 20020017033A1 US 91130301 A US91130301 A US 91130301A US 2002017033 A1 US2002017033 A1 US 2002017033A1
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- treatment chamber
- chamber
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- drying
- pressure
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Images
Classifications
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B6/00—Heating by electric, magnetic or electromagnetic fields
- H05B6/64—Heating using microwaves
- H05B6/78—Arrangements for continuous movement of material
- H05B6/782—Arrangements for continuous movement of material wherein the material moved is food
-
- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23B—PRESERVING, e.g. BY CANNING, MEAT, FISH, EGGS, FRUIT, VEGETABLES, EDIBLE SEEDS; CHEMICAL RIPENING OF FRUIT OR VEGETABLES; THE PRESERVED, RIPENED, OR CANNED PRODUCTS
- A23B7/00—Preservation or chemical ripening of fruit or vegetables
- A23B7/02—Dehydrating; Subsequent reconstitution
-
- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23L—FOODS, FOODSTUFFS, OR NON-ALCOHOLIC BEVERAGES, NOT COVERED BY SUBCLASSES A21D OR A23B-A23J; THEIR PREPARATION OR TREATMENT, e.g. COOKING, MODIFICATION OF NUTRITIVE QUALITIES, PHYSICAL TREATMENT; PRESERVATION OF FOODS OR FOODSTUFFS, IN GENERAL
- A23L19/00—Products from fruits or vegetables; Preparation or treatment thereof
- A23L19/01—Instant products; Powders; Flakes; Granules
-
- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23L—FOODS, FOODSTUFFS, OR NON-ALCOHOLIC BEVERAGES, NOT COVERED BY SUBCLASSES A21D OR A23B-A23J; THEIR PREPARATION OR TREATMENT, e.g. COOKING, MODIFICATION OF NUTRITIVE QUALITIES, PHYSICAL TREATMENT; PRESERVATION OF FOODS OR FOODSTUFFS, IN GENERAL
- A23L19/00—Products from fruits or vegetables; Preparation or treatment thereof
- A23L19/03—Products from fruits or vegetables; Preparation or treatment thereof consisting of whole pieces or fragments without mashing the original pieces
-
- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23L—FOODS, FOODSTUFFS, OR NON-ALCOHOLIC BEVERAGES, NOT COVERED BY SUBCLASSES A21D OR A23B-A23J; THEIR PREPARATION OR TREATMENT, e.g. COOKING, MODIFICATION OF NUTRITIVE QUALITIES, PHYSICAL TREATMENT; PRESERVATION OF FOODS OR FOODSTUFFS, IN GENERAL
- A23L3/00—Preservation of foods or foodstuffs, in general, e.g. pasteurising, sterilising, specially adapted for foods or foodstuffs
- A23L3/40—Preservation of foods or foodstuffs, in general, e.g. pasteurising, sterilising, specially adapted for foods or foodstuffs by drying or kilning; Subsequent reconstitution
- A23L3/54—Preservation of foods or foodstuffs, in general, e.g. pasteurising, sterilising, specially adapted for foods or foodstuffs by drying or kilning; Subsequent reconstitution using irradiation or electrical treatment, e.g. ultrasonic waves
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B15/00—Machines or apparatus for drying objects with progressive movement; Machines or apparatus with progressive movement for drying batches of material in compact form
- F26B15/10—Machines or apparatus for drying objects with progressive movement; Machines or apparatus with progressive movement for drying batches of material in compact form with movement in a path composed of one or more straight lines, e.g. compound, the movement being in alternate horizontal and vertical directions
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B5/00—Drying solid materials or objects by processes not involving the application of heat
- F26B5/04—Drying solid materials or objects by processes not involving the application of heat by evaporation or sublimation of moisture under reduced pressure, e.g. in a vacuum
- F26B5/042—Drying solid materials or objects by processes not involving the application of heat by evaporation or sublimation of moisture under reduced pressure, e.g. in a vacuum for drying articles or discrete batches of material in a continuous or semi-continuous operation, e.g. with locks or other air tight arrangements for charging/discharging
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B5/00—Drying solid materials or objects by processes not involving the application of heat
- F26B5/04—Drying solid materials or objects by processes not involving the application of heat by evaporation or sublimation of moisture under reduced pressure, e.g. in a vacuum
- F26B5/048—Drying solid materials or objects by processes not involving the application of heat by evaporation or sublimation of moisture under reduced pressure, e.g. in a vacuum in combination with heat developed by electro-magnetic means, e.g. microwave energy
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B2206/00—Aspects relating to heating by electric, magnetic, or electromagnetic fields covered by group H05B6/00
- H05B2206/04—Heating using microwaves
- H05B2206/046—Microwave drying of wood, ink, food, ceramic, sintering of ceramic, clothes, hair
Definitions
- the present invention relates to a method for drying or heat-treating products or substances, namely food products. Further it relates to an apparatus for drying or heat-treating products, namely food products. Finally, the invention relates to a dried food product.
- One such system is disclosed for example from DE 295 17 499 U1.
- This system comprises a treatment chamber in which microwave treatment and vacuum drying take place, the product to be treated being conveyed by an endless conveyor belt into the treatment chamber.
- Charging and discharging the treatment chamber is done via a dual gating system in exploiting the force of gravity. On impacting the conveyor belt the infalling product may be deformed and remain adhering to the conveyor belt.
- the product to be treated comes into contact with various components, such as with the dual gating system and the conveyor belt, for example.
- the object of the present invention is to improve a method and an apparatus for drying or heat-treating products in a treatment chamber operating at a pressure other than atmospheric pressure. More particularly, the intention is to provide a method or apparatus with which drying or heat-treating of products is possible by ways and means which are hygienic, preferably without detrimenting taste and quality of the product to be treated as well as being cost-effective and low-wearing. Where food processing is concerned, it is furthermore the intention to make an end product possible having improved properties.
- the method and the apparatus are intended to be suitable for drying banana chunks into banana chips, as starting product for a banana powder to be produced. Further banana chips and the banana powder to be produced therefrom are to be produced with as instant-type banana chips and powder. Furthermore, it is the intention to provide a transport receptacle suitable for implementing the method.
- a method of drying or heat-treating products in a treatment chamber in which a pressure other than atmospheric pressure prevails, in which the products to be treated are charged in a transport receptacle.
- the transport receptacle is transported into the treatment chamber via a charging lock chamber in which the pressure is made equal to that existing in the treatment chamber.
- a heating source preferably a microwave and/or infrared source
- main conveyor means arranged in the treatment chamber.
- the discharge via a discharging lock chamber in which the pressure is made equal to another pressure, preferably to ambient air pressure.
- conveyor means are associated, which are independent of the main conveyor means in the treatment chamber.
- the product to be treated does not come into contact directly with any of the conveyor means or any other components, thus effectively preventing soilage or contamination of the components difficult to access, for example conveyor belts in the treatment chamber.
- One advantage is that a change from one kind of product to another may be simply done without any detriment to the other product in each case, especially as regards taste, in the case of food products.
- Another advantage is that in accordance with the invention alternating operation is possible in products differing in provenance and quality may be processed quasi-continuously and without the one detrimenting the other.
- Still another salient advantage is that due to the use of transport receptacles for receiving the products to be treated freedom of design of the conveyor means arranged in the treatment chamber is permitted. In particular it does not need to be configured troughed or expansive any longer.
- the transport receptacles after having passed through the treatment chamber are cleaned before being returned to a repeated processing cycle, thus ensuring hygienic operating conditions by simple ways and means.
- the hygienic condition of the transport receptacles may be simply inspected and that bacteria, germs or spores are unable to multiply unchecked in the treatment chamber, for example in liquid films or product spillage in the treatment chamber.
- This is especially of advantage when processing or producing medicinal drugs subject to stringent hygiene code requirements. More particularly, in the case of highly-sensitive food products, such as for example banana chunks, berries or mushrooms, using preservatives may now be substantially reduced or even avoided altogether by simple ways and means.
- the transport receptacle is configured as a plate which need not be rimmed.
- the transport receptacle is to be configured as a dish having a rim so that the product to be treated is unable to fall or flow off on the side, for example into the treatment chamber, to thus save cleaning and operating costs.
- the rim is configured on all sides so that no side spillage whatsoever exists which would otherwise result in loss of the product.
- the rim may be configured upright, vertical to the bottom of the receptacle or in another suitable way to effectively prevent loss of the product during treatment.
- nets or net frames are provided. These nets or net frames may be identical in basic surface area.
- the nets are preferably impaled on guide posts in the transport receptacle, cylindrical sleeves of suitable height serving as spacers between the individual nets.
- the nets or net frames may also differ in basic surface area, located on a stepped transport receptacle rim at various levels.
- the bottom of a transport receptacle may be perforated so that the problem of any product remaining in the interior of the transport receptacle as well as contamination of the product is even further reduced.
- a transport receptacle also permits a convection drying in a downstream treatment zone without the product needing to be transfer-filled.
- the transport receptacle may be closed off at the top by a net, grid or the like.
- a net for example, it may be impaled on guide posts arranged on the transport receptacle or clamped in place at the rim of the transport receptacle with the aid of a suitable mechanism.
- the charging and discharging lock chambers are configured as pressure-tight lock chambers. It is of advantage that in this way the leakage rate of the apparatus is effectively reduced.
- the chambers are connected to one or more vacuum pumps or compressors via conduits each section of which may be shut off separately.
- air is sucked out of the treatment chamber so that it is worked at a reduced atmospheric pressure, preferably at about 20-100 mbar.
- food products e. g. tea
- the water taken out of the food product is generally eliminated by condensation.
- each charging and discharging lock chamber is very much smaller than that of the treatment chamber so that only a very minor volume of gas needs to be pumped when the transport receptacle is loaded in the charging lock chamber or unloaded from the discharging lock chamber.
- the heat-treatment in the treatment chamber may be performed continuously or quasi-continuously.
- the treatment chamber is preferably permanently connected to a vacuum pump or the gas reservoir.
- the charging and discharging lock chambers may be shut off pressure-tight by means of doors connecting the environment or the treatment chamber, for example by means of pressure-tight slide or gate valves.
- the treatment chamber is equalised in pressure each time via separate pressure equalising conduits with separately shut off means.
- each of the charging and discharging lock chambers is associated to a conveyor means, conveyance being done so that the transport receptacles are transported practically with no jolting and without any excessive acceleration so as not to cause them to topple, such means making it sure to advantage that no product spillage occurs in the treatment chamber.
- conveyance is oriented horizontally.
- the conveyor means is a conveyor belt arranged in the transport direction upstream or downstream of a conveyor belt located in the treatment chamber.
- the conveyor belt in the treatment chamber preferably features a surface roughness other than that of the conveyor belts of the charging and discharging lock chambers.
- the surface roughness of the belt in the treatment chamber is rougher.
- the transport receptacle is shifted by means of a first pusher onto the floor plate of the charging lock chamber and further shifted into the treatment chamber by means of a further longitudinally movable pusher arranged in the charging lock chamber, the discharge from the apparatus being done analogously.
- the height of the charging and discharging lock chambers in this embodiment is very small, enabling it to be adapted to the maximum height of a transport receptacle, which helps in saving the costs of operating the system.
- any other means such as, for example, side chains, side belts, push rods and the like, for example, are possible as the conveyor means.
- At least one heating source preferably vertically above the conveyor means and extending more or less over the full width of a transport receptacle.
- the product is heated or dried in the treatment chamber by means of microwave radiation.
- the microwave radiation is coupled into the treatment chamber and evenly distributed over an expansive zone by means of a correspondingly configured end portion of a microwave waveguide so that the treatment of the product is as uniform as possible.
- the microwave radiation is shielded practically completely from extraneous radiation by metal shields having an opening for passage of the conveyor means.
- the treatment chamber is subdivided into several treatment zones by means of shielding means, such as for example metal plates having an opening for passage of the conveyor means, these treatment zones being substantially decoupled as regards the microwave radiation.
- shielding means such as for example metal plates having an opening for passage of the conveyor means, these treatment zones being substantially decoupled as regards the microwave radiation.
- simultaneous treatment of several transport receptacles or implementing several steps in the treatment are possible in the chamber to thus permit a high throughput of the system.
- a microwave source Preferably not a microwave source but some other heating source, such as, for example, an infrared heating source is arranged in the last segment and optionally also in the first segment of the treatment chamber so that the various steps in the method may be implemented directly in sequence in the treatment chamber under the same pressure conditions.
- some other heating source such as, for example, an infrared heating source
- the doors connecting the charging or discharging lock chamber may be opened without the microwave source needing to be switched off, as long as the outermost doors of the charging or discharging lock chamber are microwave tight, this enhancing the life of the microwave source due to operation being more uniform.
- a comparatively short, intensive microwave treatment is followed by a longish resting period or dwell time, where necessary including further drying of the product under other conditions.
- a further separate conveyor means is provided in the treatment chamber.
- the transport receptacles thereof are preferably charged in a lifting conveyor system having vertical up and down guidance, for example, in a paternoster-type conveying system, the circulating speed of the lifting conveyor system being dimensioned so that the desired dwell time is maintained.
- further drying is done in the treatment chamber by means of infrared heating sources arranged on the inner wall of the dwell chamber.
- the dwell chamber is separated from the treatment chamber by a pressure-tight door so that a pressure differing to that otherwise may be built-up in the dwell chamber. So that only minor gas volumes need to be pumped in transfer of the transport receptacle, a further, charging lock chamber of small volume, as described above, is preferably provided upstream of the connecting door.
- another preferred embodiment makes use of—instead of an expansive conveyor belt—a conveyor means coming into contact and conveying the transport receptacle at its rim, preferably outside of the microwave zone or in zones of reduced microwave intensity.
- the rim of the transport receptacle may be configured, for example, widened and rest on two narrow conveyor belts, bands or chains running along the edge of the treatment chamber which are driven at the same speed.
- the rim of the transport receptacle rests on a row of eccentrics driven in synchronism but differing in phase so that the transport receptacle is transported by a slight up and down movement in the forwards direction. It will be appreciated that other suitable means of conveyance are possible for conveying the transport receptacle.
- the product to be treated, before entering the treatment chamber is preferably subjected initially to a suitable predrying, for example, convective drying to a residual moisture content of down to 40% before then being subjected to the treatment as described above in the treatment chamber in which the product is exposed preferably to an intensive microwave radiation and subsequently to an optional further infrared radiation. Due to the microwave radiation the product is heated up deep-down.
- the intensity of the microwave radiation is set so that a voluminous cellular break-up or decomposition occurs in the case of biological materials, as is known for example in puffing popcorn from grains of maize.
- near-surface drying of the product is preferably done with the aid of infrared radiation.
- the residual moisture content may extend as far down as to 8%, it amounting preferably to between 20% and 25%.
- the residual moisture content may then be further reduced down to 2 to 6% in subsequent after-drying, for example by convective drying.
- the method in accordance with the invention is used for drying highly-sensitive food products, such as for example banana chunks, berries or mushrooms, a further preferred use relating to drying liquid or solid or lumpy medicinal drugs.
- FIG. 1 is a section through a first embodiment of an apparatus in accordance with the invention.
- FIG. 2 is a section through a further embodiment of an apparatus in accordance with the invention including a dwell chamber and lifting conveyor system;
- FIG. 3 is a flow diagram relating to use of a method and apparatus in accordance with the invention including upstream and downstream treatment zones;
- FIG. 4 illustrates a dished transport receptacle showing a few examples of rim sections (a) to (c).
- FIG. 1 there is illustrated the apparatus comprising a central treatment chamber 1 , an upstream charging lock chamber 2 as well as a downstream discharging lock chamber 3 .
- Each of the charging and discharging lock chambers 2 and 3 respectively may be closed off pressure-tight relative to the environment via separate inlet gates 5 and 6 and outlet gates 5 ′ and 6 ′ respectively, sealing elements being provided in each case for this purpose.
- the outlet gate 5 ′ and the inlet gate 6 also close off the treatment chamber 1 pressure-tight, whereby the treatment chamber 1 may also feature further doors, for example for implementing installation and maintenance tasks.
- the chambers are connected to a vacuum pump ( 32 ; FIG. 3), a compressor or a gas reservoir with an inert gas at a suitable pressure.
- the charging and discharging lock chambers may be vented via discharge valves 25 and 25 ′ respectively.
- a further discharge valve may be provided for venting the internal chamber 1 .
- the charging and discharging lock chamber is connected to the central treatment chamber 1 for pressure equalisation.
- conveyor means 8 and 8 ′ respectively are associated respectively, configured in this example embodiment as a belt conveyor means arranged in the corresponding lock chamber.
- conveyor means 9 Arranged upstream and downstream of the lock chambers 2 and 3 respectively are further treatment zones and conveyor means as described further on in conjunction with FIG. 3.
- a further conveyor means 9 is arranged which in the example embodiment as shown is likewise configured as a belt conveyor with end guide pulleys 10 arranged in the vicinity of the connecting doors.
- the conveyor means 9 may be divided into two independent conveyor means as described further on with reference to FIG. 2.
- each conveyor means is arranged in series in the transport direction, the spacings between the individual conveyor means 8 and 9 and 9 and 8 ′ respectively being dimensioned no larger than the length of a transport receptacle 4 .
- the spacing between the individual conveyor means is substantially dictated by the wall thickness of the chambers and the respective connecting gates.
- At least one heating source is arranged in the treatment chamber 1 , preferably above the transport belt 9 .
- the apparatus as shown in FIG. 1 comprises for this purpose two microwave sources 15 as well as optionally a further heating source 16 (indicated by broken lines), for example, an infrared radiator.
- the microwave generators may be arranged within the treatment chamber 1 . In one preferred embodiment the microwave generators are located outside of the treatment chamber, however, at atmospheric pressure, the microwave radiation being coupled into the treatment chamber 1 via suitably shaped waveguides. In this arrangement the microwave radiation is radiated into the treatment chamber 1 through a pressure-tight dielectric coupling window.
- the end portion of the waveguide is preferably configured so that the microwave radiation within the treatment zone is uniform, the width of this zone corresponding roughly to the width of transport receptacle 4 .
- the intensity of the microwave radiation and the pressure conditions are suitably selected so that no glow discharges can take place in the treatment chamber.
- the treatment chamber 1 as shown in FIG. 1 is divided into several segments or treatment zones 13 , 11 , 12 and 14 .
- the shields 17 are metal plates having slots for the conveyor means 9 and the transport receptacle 4 .
- the inlet and outlet end shields are bent parallel to the conveying direction in the region of the passage openings near to the conveyor means 9 so that the inlet and outlet zones 13 and 14 respectively are substantially free of microwave radiation.
- the treatment chamber as well as the lock chambers 2 and 3 are fabricated of sheet metal, the material of the transport receptacles as well as that of the conveyor means 9 , including the pulleys 10 and the belt being likewise designed for minimum absorption of microwave radiation.
- non-polar materials such as for example polytetrafluoroethylene (PTFE) or polythene (PET).
- PTFE polytetrafluoroethylene
- PET polythene
- the inner wall surface of a transport receptacle is micro-roughened to obviate product remainders from adhering thereto.
- the product to be treated is conditioned in upstream zones (see FIG. 3) and loaded in a transport receptacle 4 evenly and in a suitable layer thickness, of 60 mm, for example.
- a shut-off valve 25 ensures the pressure being made equal to that of the environment.
- the inlet gate 5 is then opened by it being hinged upwards for example (as indicated by the broken lines) and the transport receptacle 4 is transferred to the conveyor means 8 of the charging lock chamber 2 . After this the inlet gate 5 is closed and the pressure between the charging lock chamber 2 and the treatment chamber 1 is equalised by opening the shut-off valve 23 via the pressure equalising conduit 22 .
- outlet gate 65 ′ is opened and the transport receptacle 4 transferred on actuation of the conveyor belt 8 to the conveyor belt 9 of the treatment chamber 1 .
- the outlet gate 5 ′ of the charging lock chamber 2 is reclosed and a new charging cycle can commence.
- a control unit ensures that it can never happen that both end gates of the lock chambers and treatment chamber respectively are opened at the same time, except for maintenance work.
- the position of the transport receptacle in each case is detected via optoelectronic sensors and the opening action of the gates and drive of the conveyor means controlled correspondingly.
- the conveyor means in each case are operated preferably clocked.
- a separate vacuum pump is provided for the treatment chamber 1 to ensure stable pressure conditions therein,
- a second vacuum pump is provided for evacuating the lock chambers.
- the control of the shut-off valves and the conveyor means is analogous to that as already described.
- the transport receptacle 4 is transported in the direction of the heat treatment zones, the conveyor belt 9 preferably running continuously for this purpose.
- a further heat treatment for example by means of an infrared radiator 16 may optionally be provided or the transport receptacle 4 is transported further without any further heat treatment to allow the product to rest and cool.
- the discharge zone 14 may be provided. The discharge via the discharging lock chamber 3 follows similar to that as already described for charging into the charging lock chamber 2 .
- the transport receptacle 4 is cleaned before being re-used or at least when a change is made in the product to be treated.
- cleaning is done either purely mechanically or the transport receptacle 4 is washed and where necessary disinfected or sterilised and dried prior to being recharged.
- the product to be treated is not placed directly on the bottom of the transport receptacle 4 , it instead being placed on a net located thereabove having a suitable mesh for the solid or lumpy product.
- the transport receptacle 4 and/or the net may be designed to be disposable.
- the surface roughness of the conveyor belt in the treatment chamber 1 may be rougher than that in the lock chamber 2 or 3 .
- the circulating speed of the conveyor belts in all lock chambers may be higher to support transfer of the transport receptacles.
- studs may be arranged on the conveyor belts on a suitable center-spacing, endowing the rim of the transport receptacle 4 with a forwards drive on being transferred to a downstream belt, by the studs being deflected from their normal vertical position due to the deflection of the conveyor belt at the corresponding guide pulleys.
- two narrow conveyor belts driven in synchronism may be provided at the wall of the treatment chamber 1 .
- these conveyor belts run in a zone of low microwave intensity so that less costly materials may be used for this purpose.
- several eccentrics may be provided in series on the two sidewalls of the treatment chamber which in being driven in synchronism but out of phase continue transport of the transport receptacle 4 with a slight up and down movement.
- side guide rails may also be provided on which the transport receptacles 4 are transported further by incremental drives (not shown). For contact in the such rim areas the upper rim of the transport receptacle 4 may be devised widened.
- the dwell time in the zone 12 or 14 in the absence of a heat-treating is longer by a certain factor than the duration of the microwave treatment in the zones 11 .
- the length of the zone 12 needs to be longer by the same factor than the length of the zone 11 which increases the overall length and thus the costs of the apparatus to disadvantage.
- a separate conveyor means may be provided in the downstream zone 12 which is wider than the the conveyor means 9 in the microwave treatment zone 11 by at least this factor.
- means need to be provided for side shifting the transport receptacles 4 , for example with the aid of an arm which side-shifts the transport receptacles alternatingly or cyclically and positions them on the separate conveyor means.
- the further conveyor means is designed as a lifting conveyor system for vertically stacking and for transporting the transport receptacles 4 in upwards and downward direction.
- the treatment chamber 1 is followed by a dwell chamber 18 which may be closed off from adjoining chambers by additional inlet and outlet gates 7 and 7 ′ respectively. Controlling the conveyor means necessary in this respect is done analogous to the charging the charging lock chamber 2 as already described.
- the dwell chamber 18 is likewise connected to the vacuum pump via the connecting conduit 21 and is expediently connected to the adjoining chambers 1 and 3 respectively by corresponding equalisation conduits including shut-off valves for pressure equalisation.
- the vertical conveying system in the dwell chamber 18 comprises a number of frames or surface areas for supporting a transport receptacle 4 which circulate preferably like a paternoster, the transport receptacles 4 first being transported in the upwards direction U and subsequently in the downwards direction D.
- Lifting conveyance occurs either circulatory on the paternoster principle or the transport receptacles 4 are shifted onto a second lifting conveyor system D as shown in FIG. 2.
- the transport receptacle 4 has in turn attained the level of the conveyor means 8 ′ in the discharging lock chamber 3 it is transferred analogously into the discharging lock chamber 3 .
- the lower reversal zone of the lifting conveyor system is roughly at the level of the adjoining conveyor means.
- the circulating speed or the dwell time in the dwell chamber 18 may be varied and thus adapted to the factor or the ratio of the microwave treatment duration to the desired dwell time.
- the circulating times of the vertically conveying system and of the conveyor means 9 of the treatment chamber I are matched with each other preferably in an integer ratio.
- the heat-treated product rests for a predetermined time.
- further after-drying of the product may be done in the transport receptacles 4 , for example by means of infrared radiators mounted either to the sidewalls of the dwell chamber 18 or, however, above a transport receptacle 4 on the transport frame located thereabove for supporting the transport receptacle 4 .
- pressure different from that in the treatment chamber 1 may be set in the dwell chamber 18 .
- an additional lock chamber analogous to the charging lock chamber 2 is arranged in the zone 14 of the treatment chamber 1 , the interior volume of this lock chamber exceeding the overall volume of a transport receptacle preferably only unsubstantially.
- the dwell chamber 18 in a continuous or quasi-continuous process may also serve to compensate fluctuations in the conveying speed for instance in the case of the system malfunctioning, since should the conveyor means 9 or 8 ′ be at a standstill the transport receptacles 4 are able to simply continue circulating without any further heat-treating taking place.
- This principle may also be transferred to the charging and discharging lock chambers 2 and 3 respectively by the charging and discharging lock chambers 2 and 3 respectively being provided with a similar lifting conveyor system.
- stacking units may be equipped with an additional number of transport receptacles 4 on a standby arrangement which in the case of a system malfunction, for example on belt standstill in an upstream unit, may be continued to be supplied to the downstream unit in each case.
- a stacking unit for feeding the treatment chamber 1 may also be equipped in one go with a number of transport receptacles 4 and the stacking unit may be introduced as a whole into the charging lock chamber 2 subsequently, for example with the aid of a fork-lift truck. In this way the charging lock chamber 2 needs to be vented once only for equipping with several transport receptacles 4 .
- FIG. 3 there is illustrated a schematic flow diagram to explain the sequence in the steps of the method in accordance with the invention.
- a preprocessing unit 31 for drying.
- this is first cleaned, peeled and cut into chunks of suitable size prior to drying.
- the product to be treated is then loaded in transport receptacles of a suitable size.
- a predrying sequence may be implemented.
- a pre-treatment chamber 33 is provided in which predrying is done optionally with the aid of infrared radiation or microwave radiation at a pressure which is normal, reduced or elevated.
- the pre-treatment chamber 33 like the main treatment chamber 34 and the after-treatment chamber 35 is connected to a vacuum pump 32 or a compressor or the like via shut-off valves and connecting conduits.
- the charging and discharging lock chambers may be arranged in the pre- and after-treatment chamber respectively.
- the drying in the main treatment chamber 34 may be followed, similar to pre-drying, by after-drying.
- Pre- and after-drying may be performed convectively, for the purpose of which fans (see FIG. 3) are arranged in the pre and after-treatment chambers.
- the conveyor means in the pre- and after-treatment chambers may be conventional belt conveyors. This is then followed by further processing of the treated or dried product into the desired finished product, involving for example further size reduction or milling in a unit 36 , blending with other products and final packaging in the finishing unit 37 .
- the method is used for the production of banana chips or banana powder made therefrom by milling, the bananas being chopped into chunks and the chunks of bananas first being pre-dried to a suitable residual moisture content before the banana chunks are dried for roughly one minute by means of microwave radiation and puffed and subsequently left to rest for roughly 9 minutes in the treatment chamber 1 . Subsequent after- drying is implemented to attain a suitable residual moisture content down to 2 to 6%.
- the pressure existing in the treatment chamber is preferably between approx. 20 mbar and 100 mbar. Due to the use of transport receptacles the system may be operated continuously and without maintenance and cleaning downtime. The banana chips or banana powder also remain good without the addition of preservatives. Due to its excellent rehydration properties banana powder is suitable for preparing a naturally tasting banana pulp.
- microwave treatment By varying the conditions in microwave treatment, subsequent resting/dwelling in the main treatment chamber 34 and during pre- and after-drying a wealth of greatly differing substances or products may be suitably dried.
- the conditions in the microwave treatment may be selected so that a suitable cellular break-up and puffing up of the product occurs which promotes a fast rehydration, for example during pre-cooking.
- the majority of food products resting times specific to the product concerned are involved subsequent to microwave treatment which may be suitably set, for example by means of programmed control routines.
- Yet a further preferred use of the method relates to drying medicinal drugs subject to particularly stringent hygiene code requirements. These can be easily complied with, because the products to be treated do not come into contact with a conveyor belt or similar conveyor means which are difficult to clean, the products instead coming exclusively in contact with transport receptacles which are relatively easy to clean and sterilise.
- the method in accordance with the invention is suitable not only for drying solid, lumpy or grainy substances or products, but also for drying liquid or pasty substances.
- the method may be put to use in the production of orange juice powder, whereby an intensive pre-drying and thickening of the orange juice or orange juice concentrate takes place in the pre-treatment chamber 33 followed by microwave treatment with final after-drying into a solid product.
- FIG. 4 there is illustrated in the lower half thereof a transport receptacle 4 configured as a dish with a rim 40 on all sides and having several guide posts 42 .
- the upright guide posts 42 are located in the vicinity of the corner points so that the guide posts 21 are arranged on a basic square.
- the guide posts 42 are used to mount a plate having suitable guide holes or a net or a sieve. Where several nets or plates are stacked one on the other the cylindrical guide sleeves (not shown) serve as spacers, the level of which is adapted to the thickness as usual in heat-treating and amounting to 70 to 80 mm, for example.
- the height of the rim 40 and of the guide posts 42 is dimensioned so that also in a stacked arrangement of several nets or plates the guide posts protrude from the topmost plate or net to permit a final net to be mounted to prevent escape of the product into the treatment chamber, for example, during puffing.
- the guide post 42 may also be totally eliminated when the rim 41 of the receptacle is configured stepped, for example, including several mounting surface areas 43 a , 43 b for plates or nets differing in basic surface area.
- the guide post 42 may be eliminated when the nets or plates to be stacked in the transport receptacle 4 are provided with spacers suitable in height.
- additional treatment zone e.g. infrared, optionally
- pre-treatment pre-drying ⁇ approx. 40% residual moisture content
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Abstract
Description
- This Application is a Continuation Application of Ser. No. 09/244,278 filed Feb. 3, 1999 which claims priority from German Application No. DE 198 04 386.4 filed Feb. 4, 1998.
- The present invention relates to a method for drying or heat-treating products or substances, namely food products. Further it relates to an apparatus for drying or heat-treating products, namely food products. Finally, the invention relates to a dried food product.
- To accelerate drying and for a more gentle treatment, heat-treating substances, such as agricultural products for example, is often done at a reduced pressure in a pressure-tight treatment chamber in which a heating source is arranged. Liquid products are usually pumped into the treatment chamber for treatment where they are evenly distributed on an endless conveyor belt which guides them past a heating source. In this arrangement the conveyor belt serves two functions, namely transporting, on the one hand, and, on the other, receiving and guiding the product to be treated. For this purpose the conveyor belt is usually configured troughed, for example upswept or provided with side sealing means. On completion of drying the treated product is scraped from the rear end of the belt and discharged via a dual gating system, for example. If the product to be treated is available as a solid or lumpy product a dual gating system is usually also provided for charging.
- One such system is disclosed for example from DE 295 17 499 U1. This system comprises a treatment chamber in which microwave treatment and vacuum drying take place, the product to be treated being conveyed by an endless conveyor belt into the treatment chamber. Charging and discharging the treatment chamber is done via a dual gating system in exploiting the force of gravity. On impacting the conveyor belt the infalling product may be deformed and remain adhering to the conveyor belt. The product to be treated comes into contact with various components, such as with the dual gating system and the conveyor belt, for example.
- In systems for heat-treating products at a pressure other than atmospheric pressure it is usually so that a change from one product to another product can only be made with a lot of trouble since many of the components are accessible only with restrictions, and need to be cleaned or replaced. Furthermore, satisfying hygiene code requirements is only possible at great expense.
- The object of the present invention is to improve a method and an apparatus for drying or heat-treating products in a treatment chamber operating at a pressure other than atmospheric pressure. More particularly, the intention is to provide a method or apparatus with which drying or heat-treating of products is possible by ways and means which are hygienic, preferably without detrimenting taste and quality of the product to be treated as well as being cost-effective and low-wearing. Where food processing is concerned, it is furthermore the intention to make an end product possible having improved properties. Preferably, the method and the apparatus are intended to be suitable for drying banana chunks into banana chips, as starting product for a banana powder to be produced. Further banana chips and the banana powder to be produced therefrom are to be produced with as instant-type banana chips and powder. Furthermore, it is the intention to provide a transport receptacle suitable for implementing the method.
- In accordance with the present invention there is provided a method of drying or heat-treating products in a treatment chamber, in which a pressure other than atmospheric pressure prevails, in which the products to be treated are charged in a transport receptacle. The transport receptacle is transported into the treatment chamber via a charging lock chamber in which the pressure is made equal to that existing in the treatment chamber. In the treatment chamber the product to be treated is guided past a heating source, preferably a microwave and/or infrared source by means of a main conveyor means arranged in the treatment chamber. This is followed by the discharge via a discharging lock chamber in which the pressure is made equal to another pressure, preferably to ambient air pressure. Preferably, to each charging and discharging lock chamber conveyor means are associated, which are independent of the main conveyor means in the treatment chamber.
- In accordance with the invention the product to be treated does not come into contact directly with any of the conveyor means or any other components, thus effectively preventing soilage or contamination of the components difficult to access, for example conveyor belts in the treatment chamber. One advantage is that a change from one kind of product to another may be simply done without any detriment to the other product in each case, especially as regards taste, in the case of food products. Another advantage is that in accordance with the invention alternating operation is possible in products differing in provenance and quality may be processed quasi-continuously and without the one detrimenting the other.
- Yet a further advantage is that the product to be treated or remainders thereof need not be removed mechanically from a conveyor belt in a vacuum chamber. This adds to the life of a conveyor belt arranged in the treatment chamber due to its reduced wear. Furthermore, the conveyor means are hardly exposed to transverse forces, due to the gentle continual transport, thus reducing the maintenance expense of the apparatus to advantage.
- Still another salient advantage is that due to the use of transport receptacles for receiving the products to be treated freedom of design of the conveyor means arranged in the treatment chamber is permitted. In particular it does not need to be configured troughed or expansive any longer.
- Preferably the transport receptacles after having passed through the treatment chamber are cleaned before being returned to a repeated processing cycle, thus ensuring hygienic operating conditions by simple ways and means. It is furthermore of advantage that the hygienic condition of the transport receptacles may be simply inspected and that bacteria, germs or spores are unable to multiply unchecked in the treatment chamber, for example in liquid films or product spillage in the treatment chamber. This is especially of advantage when processing or producing medicinal drugs subject to stringent hygiene code requirements. More particularly, in the case of highly-sensitive food products, such as for example banana chunks, berries or mushrooms, using preservatives may now be substantially reduced or even avoided altogether by simple ways and means.
- Where allowed by the nature of the product concerned, more particularly in the case of slightly sticky or non-flowable products or substances, the transport receptacle is configured as a plate which need not be rimmed. Should, however, the nature of the product require such a rim, especially where liquid or grainy substances are involved, the transport receptacle is to be configured as a dish having a rim so that the product to be treated is unable to fall or flow off on the side, for example into the treatment chamber, to thus save cleaning and operating costs. Preferably the rim is configured on all sides so that no side spillage whatsoever exists which would otherwise result in loss of the product. The rim may be configured upright, vertical to the bottom of the receptacle or in another suitable way to effectively prevent loss of the product during treatment.
- Even better hygienic conditions are possible when the product is placed on a net or grid or on a replaceable net frame arranged in the transport receptacle. By configuring the portion coming into contact with the product as an airy, lightweight net, cleaning it may be affected even simpler and more effectively. Furthermore, moisture emitted by the product during drying is able to escape practically unrestricted on all sides, which accelerates drying and thus helps in saving costs. Preferably a gap is provided between the net or the receiving surface and the transport receptacle to enable the emitted moisture to be removed even more expediently.
- It is particularly in the case of processing medicinal drugs that sterile disposable transport receptacles or replaceable disposable nets may also be put to use, thus making the range of application of the apparatus or method even wider.
- In one preferred embodiment to make more efficient use of the handling volume several such nets are stacked vertically in one and the same transport receptacle. For this purpose replaceable nets or net frames are provided. These nets or net frames may be identical in basic surface area. For stacking, the nets are preferably impaled on guide posts in the transport receptacle, cylindrical sleeves of suitable height serving as spacers between the individual nets. However, the nets or net frames may also differ in basic surface area, located on a stepped transport receptacle rim at various levels.
- Where the consistency of the product permits, the bottom of a transport receptacle may be perforated so that the problem of any product remaining in the interior of the transport receptacle as well as contamination of the product is even further reduced. Such a transport receptacle also permits a convection drying in a downstream treatment zone without the product needing to be transfer-filled.
- To prevent the product from being lost upwards on drying, for example by jumping out of place on being puffed, (i. e. a process by which the inner structure of the product is changed as commonly known in popcorn) the transport receptacle may be closed off at the top by a net, grid or the like. For holding such a net in place, for example, it may be impaled on guide posts arranged on the transport receptacle or clamped in place at the rim of the transport receptacle with the aid of a suitable mechanism.
- The charging and discharging lock chambers are configured as pressure-tight lock chambers. It is of advantage that in this way the leakage rate of the apparatus is effectively reduced. The chambers are connected to one or more vacuum pumps or compressors via conduits each section of which may be shut off separately. When drying most of the food products, air is sucked out of the treatment chamber so that it is worked at a reduced atmospheric pressure, preferably at about 20-100 mbar. There are different food products, e. g. tea, which are dried at a pressure which is higher than atmospheric pressure. The water taken out of the food product is generally eliminated by condensation.
- Preferably the volume of each charging and discharging lock chamber is very much smaller than that of the treatment chamber so that only a very minor volume of gas needs to be pumped when the transport receptacle is loaded in the charging lock chamber or unloaded from the discharging lock chamber. Thus the heat-treatment in the treatment chamber may be performed continuously or quasi-continuously. To maintain constant operating conditions the treatment chamber is preferably permanently connected to a vacuum pump or the gas reservoir.
- Preferably the charging and discharging lock chambers may be shut off pressure-tight by means of doors connecting the environment or the treatment chamber, for example by means of pressure-tight slide or gate valves. For charging/discharging the product the treatment chamber is equalised in pressure each time via separate pressure equalising conduits with separately shut off means.
- For conveying the transport receptacles, each of the charging and discharging lock chambers is associated to a conveyor means, conveyance being done so that the transport receptacles are transported practically with no jolting and without any excessive acceleration so as not to cause them to topple, such means making it sure to advantage that no product spillage occurs in the treatment chamber. Preferably conveyance is oriented horizontally.
- Preferably the conveyor means is a conveyor belt arranged in the transport direction upstream or downstream of a conveyor belt located in the treatment chamber. To permit a more efficient transfer of the transport receptacle into and out of the treatment chamber the conveyor belt in the treatment chamber preferably features a surface roughness other than that of the conveyor belts of the charging and discharging lock chambers. Preferably the surface roughness of the belt in the treatment chamber is rougher.
- In another embodiment the transport receptacle is shifted by means of a first pusher onto the floor plate of the charging lock chamber and further shifted into the treatment chamber by means of a further longitudinally movable pusher arranged in the charging lock chamber, the discharge from the apparatus being done analogously. To advantage the height of the charging and discharging lock chambers in this embodiment is very small, enabling it to be adapted to the maximum height of a transport receptacle, which helps in saving the costs of operating the system. However, any other means such as, for example, side chains, side belts, push rods and the like, for example, are possible as the conveyor means.
- Arranged in the treatment chamber is at least one heating source, preferably vertically above the conveyor means and extending more or less over the full width of a transport receptacle. Preferably the product is heated or dried in the treatment chamber by means of microwave radiation. The microwave radiation is coupled into the treatment chamber and evenly distributed over an expansive zone by means of a correspondingly configured end portion of a microwave waveguide so that the treatment of the product is as uniform as possible. At the input and output end the microwave radiation is shielded practically completely from extraneous radiation by metal shields having an opening for passage of the conveyor means.
- Preferably the treatment chamber is subdivided into several treatment zones by means of shielding means, such as for example metal plates having an opening for passage of the conveyor means, these treatment zones being substantially decoupled as regards the microwave radiation. Preferably simultaneous treatment of several transport receptacles or implementing several steps in the treatment are possible in the chamber to thus permit a high throughput of the system.
- Preferably not a microwave source but some other heating source, such as, for example, an infrared heating source is arranged in the last segment and optionally also in the first segment of the treatment chamber so that the various steps in the method may be implemented directly in sequence in the treatment chamber under the same pressure conditions. It is furthermore of advantage that due to using microwave shielding means the doors connecting the charging or discharging lock chamber may be opened without the microwave source needing to be switched off, as long as the outermost doors of the charging or discharging lock chamber are microwave tight, this enhancing the life of the microwave source due to operation being more uniform.
- In one preferred embodiment a comparatively short, intensive microwave treatment is followed by a longish resting period or dwell time, where necessary including further drying of the product under other conditions. For this purpose a further separate conveyor means is provided in the treatment chamber. To minimize the space requirement of the apparatus in accordance with the invention the transport receptacles thereof are preferably charged in a lifting conveyor system having vertical up and down guidance, for example, in a paternoster-type conveying system, the circulating speed of the lifting conveyor system being dimensioned so that the desired dwell time is maintained. Preferably, further drying is done in the treatment chamber by means of infrared heating sources arranged on the inner wall of the dwell chamber.
- In another embodiment the dwell chamber is separated from the treatment chamber by a pressure-tight door so that a pressure differing to that otherwise may be built-up in the dwell chamber. So that only minor gas volumes need to be pumped in transfer of the transport receptacle, a further, charging lock chamber of small volume, as described above, is preferably provided upstream of the connecting door.
- To reduce the material requirements on the conveyor means of the treatment chamber as regards microwave resistance, another preferred embodiment makes use of—instead of an expansive conveyor belt—a conveyor means coming into contact and conveying the transport receptacle at its rim, preferably outside of the microwave zone or in zones of reduced microwave intensity. For this purpose the rim of the transport receptacle may be configured, for example, widened and rest on two narrow conveyor belts, bands or chains running along the edge of the treatment chamber which are driven at the same speed. In another embodiment the rim of the transport receptacle rests on a row of eccentrics driven in synchronism but differing in phase so that the transport receptacle is transported by a slight up and down movement in the forwards direction. It will be appreciated that other suitable means of conveyance are possible for conveying the transport receptacle.
- In implementing the method in accordance with the invention the product to be treated, before entering the treatment chamber, is preferably subjected initially to a suitable predrying, for example, convective drying to a residual moisture content of down to 40% before then being subjected to the treatment as described above in the treatment chamber in which the product is exposed preferably to an intensive microwave radiation and subsequently to an optional further infrared radiation. Due to the microwave radiation the product is heated up deep-down. Preferably the intensity of the microwave radiation is set so that a voluminous cellular break-up or decomposition occurs in the case of biological materials, as is known for example in puffing popcorn from grains of maize.
- After puffing, near-surface drying of the product is preferably done with the aid of infrared radiation. On leaving the treatment chamber the residual moisture content may extend as far down as to 8%, it amounting preferably to between 20% and 25%. Depending on the requirements on the finished product the residual moisture content may then be further reduced down to 2 to 6% in subsequent after-drying, for example by convective drying.
- It has been discovered in extensive tests on various food products that food products treated by the method in accordance with the invention exhibit a series of highly advantageous properties. More particularly, the food products thus treated exhibit a very fast rehydration in being pre-cooked, due to the dry product remaining airy and porous due to being puffed and thus facilitate the ingress of water. The outer appearance of the treated food products is also of great advantage since the considerable shrinkage in volume caused by the drying may be compensated at least in part by the puffing. Furthermore, there is practically no change in taste because of the more gentle treatment. The method in accordance with the invention has proven to be particularly of advantage in drying banana chunks into banana chips and in their further processing into instant-type banana powder.
- Preferably the method in accordance with the invention is used for drying highly-sensitive food products, such as for example banana chunks, berries or mushrooms, a further preferred use relating to drying liquid or solid or lumpy medicinal drugs.
- Preferred example embodiments of the present invention will now be described by way of examples and with reference to the attached drawings in which:
- FIG. 1 is a section through a first embodiment of an apparatus in accordance with the invention;
- FIG. 2 is a section through a further embodiment of an apparatus in accordance with the invention including a dwell chamber and lifting conveyor system;
- FIG. 3 is a flow diagram relating to use of a method and apparatus in accordance with the invention including upstream and downstream treatment zones; and
- FIG. 4 illustrates a dished transport receptacle showing a few examples of rim sections (a) to (c).
- Referring now to FIG. 1 there is illustrated the apparatus comprising a
central treatment chamber 1, an upstream charginglock chamber 2 as well as a downstream discharginglock chamber 3. Each of the charging and discharginglock chambers separate inlet gates 5 and 6 andoutlet gates 5′ and 6′ respectively, sealing elements being provided in each case for this purpose. Theoutlet gate 5′ and the inlet gate 6 also close off thetreatment chamber 1 pressure-tight, whereby thetreatment chamber 1 may also feature further doors, for example for implementing installation and maintenance tasks. - Via a three-
way valve 20 as well as further shut-offvalves discharge valves equalisation conduits valves central treatment chamber 1 for pressure equalisation. - To each
lock chamber lock chambers - As illustrated in FIG. 1 each conveyor means is arranged in series in the transport direction, the spacings between the individual conveyor means8 and 9 and 9 and 8′ respectively being dimensioned no larger than the length of a
transport receptacle 4. The spacing between the individual conveyor means is substantially dictated by the wall thickness of the chambers and the respective connecting gates. - For heat treatment at least one heating source is arranged in the
treatment chamber 1, preferably above the transport belt 9. The apparatus as shown in FIG. 1 comprises for this purpose twomicrowave sources 15 as well as optionally a further heating source 16 (indicated by broken lines), for example, an infrared radiator. The microwave generators may be arranged within thetreatment chamber 1. In one preferred embodiment the microwave generators are located outside of the treatment chamber, however, at atmospheric pressure, the microwave radiation being coupled into thetreatment chamber 1 via suitably shaped waveguides. In this arrangement the microwave radiation is radiated into thetreatment chamber 1 through a pressure-tight dielectric coupling window. The end portion of the waveguide is preferably configured so that the microwave radiation within the treatment zone is uniform, the width of this zone corresponding roughly to the width oftransport receptacle 4. The intensity of the microwave radiation and the pressure conditions are suitably selected so that no glow discharges can take place in the treatment chamber. - With the aid of shielding means17 provided preferably shiftable the
treatment chamber 1 as shown in FIG. 1 is divided into several segments ortreatment zones shields 17 are metal plates having slots for the conveyor means 9 and thetransport receptacle 4. The inlet and outlet end shields are bent parallel to the conveying direction in the region of the passage openings near to the conveyor means 9 so that the inlet andoutlet zones - For screening off the microwave radiation, the treatment chamber as well as the
lock chambers pulleys 10 and the belt being likewise designed for minimum absorption of microwave radiation. For this purpose preference is given to non-polar materials such as for example polytetrafluoroethylene (PTFE) or polythene (PET). Preferably the inner wall surface of a transport receptacle is micro-roughened to obviate product remainders from adhering thereto. - For drying, the product to be treated is conditioned in upstream zones (see FIG. 3) and loaded in a
transport receptacle 4 evenly and in a suitable layer thickness, of 60 mm, for example. Before theinlet gate 5 of the charginglock chamber 2 is opened a shut-offvalve 25 ensures the pressure being made equal to that of the environment. Theinlet gate 5 is then opened by it being hinged upwards for example (as indicated by the broken lines) and thetransport receptacle 4 is transferred to the conveyor means 8 of the charginglock chamber 2. After this theinlet gate 5 is closed and the pressure between the charginglock chamber 2 and thetreatment chamber 1 is equalised by opening the shut-offvalve 23 via thepressure equalising conduit 22. This is followed by the outlet gate 65′ being opened and thetransport receptacle 4 transferred on actuation of theconveyor belt 8 to the conveyor belt 9 of thetreatment chamber 1. After this, theoutlet gate 5′ of the charginglock chamber 2 is reclosed and a new charging cycle can commence. - In this embodiment a control unit (not shown) ensures that it can never happen that both end gates of the lock chambers and treatment chamber respectively are opened at the same time, except for maintenance work. Preferably, the position of the transport receptacle in each case is detected via optoelectronic sensors and the opening action of the gates and drive of the conveyor means controlled correspondingly. To minimise the length of the
lock chambers - In another embodiment a separate vacuum pump is provided for the
treatment chamber 1 to ensure stable pressure conditions therein, For evacuating the lock chambers a second vacuum pump is provided. The control of the shut-off valves and the conveyor means is analogous to that as already described. - From the charging
zone 13 thetransport receptacle 4 is transported in the direction of the heat treatment zones, the conveyor belt 9 preferably running continuously for this purpose. Directly following microwave treatment in the at least one microwave zone 11 a further heat treatment, for example by means of aninfrared radiator 16 may optionally be provided or thetransport receptacle 4 is transported further without any further heat treatment to allow the product to rest and cool. For this purpose thedischarge zone 14 may be provided. The discharge via the discharginglock chamber 3 follows similar to that as already described for charging into the charginglock chamber 2. - Once the
transport receptacle 4 has passed through themain treatment zone 34 as well as any subsequent treatment zones (see FIG. 3) the transport receptacle is cleaned before being re-used or at least when a change is made in the product to be treated. Depending on the hygiene code requirements cleaning is done either purely mechanically or thetransport receptacle 4 is washed and where necessary disinfected or sterilised and dried prior to being recharged. To facilitate the cleaning step in one preferred embodiment the product to be treated is not placed directly on the bottom of thetransport receptacle 4, it instead being placed on a net located thereabove having a suitable mesh for the solid or lumpy product. For drying medicinal drugs thetransport receptacle 4 and/or the net may be designed to be disposable. - Various ways and means are available to design the transport through the
main treatment zone 34 even more efficiently. To facilitate the transfer of thetransport receptacle 4 the surface roughness of the conveyor belt in thetreatment chamber 1 may be rougher than that in thelock chamber transport receptacle 4 with a forwards drive on being transferred to a downstream belt, by the studs being deflected from their normal vertical position due to the deflection of the conveyor belt at the corresponding guide pulleys. - Instead of a single expansive conveyor belt9 in the treatment chamber two narrow conveyor belts driven in synchronism, the same in length, may be provided at the wall of the
treatment chamber 1. Preferably these conveyor belts run in a zone of low microwave intensity so that less costly materials may be used for this purpose. As an alternative several eccentrics may be provided in series on the two sidewalls of the treatment chamber which in being driven in synchronism but out of phase continue transport of thetransport receptacle 4 with a slight up and down movement. As an alternative side guide rails may also be provided on which thetransport receptacles 4 are transported further by incremental drives (not shown). For contact in the such rim areas the upper rim of thetransport receptacle 4 may be devised widened. - In one preferred embodiment, especially for drying banana chunks, the dwell time in the
zone zones 11. In continuous or quasi-continuous operation of the system the length of thezone 12 needs to be longer by the same factor than the length of thezone 11 which increases the overall length and thus the costs of the apparatus to disadvantage. If the factor is not too large, forexample factor 2 to 3, a separate conveyor means may be provided in thedownstream zone 12 which is wider than the the conveyor means 9 in themicrowave treatment zone 11 by at least this factor. For this purpose means need to be provided for side shifting thetransport receptacles 4, for example with the aid of an arm which side-shifts the transport receptacles alternatingly or cyclically and positions them on the separate conveyor means. - Should, however, this factor be even larger, exceeding, for example, the
factor 10, then—in a further preferred embodiment—the further conveyor means is designed as a lifting conveyor system for vertically stacking and for transporting thetransport receptacles 4 in upwards and downward direction. Referring now to FIG. 2 this embodiment will now be described in which like components are identified by like reference numerals, as already explained with reference to FIG. 1. - In this embodiment the
treatment chamber 1 is followed by adwell chamber 18 which may be closed off from adjoining chambers by additional inlet andoutlet gates lock chamber 2 as already described. Thedwell chamber 18 is likewise connected to the vacuum pump via the connectingconduit 21 and is expediently connected to the adjoiningchambers - The vertical conveying system in the
dwell chamber 18 comprises a number of frames or surface areas for supporting atransport receptacle 4 which circulate preferably like a paternoster, thetransport receptacles 4 first being transported in the upwards direction U and subsequently in the downwards direction D. Lifting conveyance occurs either circulatory on the paternoster principle or thetransport receptacles 4 are shifted onto a second lifting conveyor system D as shown in FIG. 2. Once thetransport receptacle 4 has in turn attained the level of the conveyor means 8′ in the discharginglock chamber 3 it is transferred analogously into the discharginglock chamber 3. Preferably, the lower reversal zone of the lifting conveyor system is roughly at the level of the adjoining conveyor means. - The circulating speed or the dwell time in the
dwell chamber 18 may be varied and thus adapted to the factor or the ratio of the microwave treatment duration to the desired dwell time. The circulating times of the vertically conveying system and of the conveyor means 9 of the treatment chamber I are matched with each other preferably in an integer ratio. - In the
dwell chamber 18 the heat-treated product rests for a predetermined time. As an alternative, however, further after-drying of the product may be done in thetransport receptacles 4, for example by means of infrared radiators mounted either to the sidewalls of thedwell chamber 18 or, however, above atransport receptacle 4 on the transport frame located thereabove for supporting thetransport receptacle 4. Optionally also pressure different from that in thetreatment chamber 1 may be set in thedwell chamber 18. For this purpose an additional lock chamber analogous to the charginglock chamber 2 is arranged in thezone 14 of thetreatment chamber 1, the interior volume of this lock chamber exceeding the overall volume of a transport receptacle preferably only unsubstantially. - It will be appreciated that the
dwell chamber 18 in a continuous or quasi-continuous process may also serve to compensate fluctuations in the conveying speed for instance in the case of the system malfunctioning, since should the conveyor means 9 or 8′ be at a standstill thetransport receptacles 4 are able to simply continue circulating without any further heat-treating taking place. This principle may also be transferred to the charging and discharginglock chambers lock chambers transport receptacles 4 on a standby arrangement which in the case of a system malfunction, for example on belt standstill in an upstream unit, may be continued to be supplied to the downstream unit in each case. As an alternative a stacking unit for feeding thetreatment chamber 1 may also be equipped in one go with a number oftransport receptacles 4 and the stacking unit may be introduced as a whole into the charginglock chamber 2 subsequently, for example with the aid of a fork-lift truck. In this way the charginglock chamber 2 needs to be vented once only for equipping withseveral transport receptacles 4. - Referring now to FIG. 3 there is illustrated a schematic flow diagram to explain the sequence in the steps of the method in accordance with the invention. Following storage or supply of the raw material the product is suitably conditioned in a
preprocessing unit 31 for drying. In the case of fruit, for instance, this is first cleaned, peeled and cut into chunks of suitable size prior to drying. The product to be treated is then loaded in transport receptacles of a suitable size. Before the transport receptacles are charged into themain treatment chamber 34 as described with reference to FIGS. 1 and 2, a predrying sequence may be implemented. For this purpose a pre-treatment chamber 33 is provided in which predrying is done optionally with the aid of infrared radiation or microwave radiation at a pressure which is normal, reduced or elevated. The pre-treatment chamber 33 like themain treatment chamber 34 and the after-treatment chamber 35 is connected to avacuum pump 32 or a compressor or the like via shut-off valves and connecting conduits. The charging and discharging lock chambers may be arranged in the pre- and after-treatment chamber respectively. - The drying in the
main treatment chamber 34 may be followed, similar to pre-drying, by after-drying. Pre- and after-drying may be performed convectively, for the purpose of which fans (see FIG. 3) are arranged in the pre and after-treatment chambers. The conveyor means in the pre- and after-treatment chambers may be conventional belt conveyors. This is then followed by further processing of the treated or dried product into the desired finished product, involving for example further size reduction or milling in aunit 36, blending with other products and final packaging in the finishingunit 37. - Preferably the method is used for the production of banana chips or banana powder made therefrom by milling, the bananas being chopped into chunks and the chunks of bananas first being pre-dried to a suitable residual moisture content before the banana chunks are dried for roughly one minute by means of microwave radiation and puffed and subsequently left to rest for roughly 9 minutes in the
treatment chamber 1. Subsequent after- drying is implemented to attain a suitable residual moisture content down to 2 to 6%. The pressure existing in the treatment chamber is preferably between approx. 20 mbar and 100 mbar. Due to the use of transport receptacles the system may be operated continuously and without maintenance and cleaning downtime. The banana chips or banana powder also remain good without the addition of preservatives. Due to its excellent rehydration properties banana powder is suitable for preparing a naturally tasting banana pulp. - Further preferred forms of use relate to drying berries, potato chips or mushrooms which have turned out to be highly problematic in drying by means of conventional systems especially since, due to coming into contact with parts of the apparatus, such as for example conveyor belts or gates, soilage of the dried fruits and contamination by bacteria etc. occurs. Due to the gentle treatment conditions in accordance with the invention such and also other starting or basic products may be dried with no problem.
- By varying the conditions in microwave treatment, subsequent resting/dwelling in the
main treatment chamber 34 and during pre- and after-drying a wealth of greatly differing substances or products may be suitably dried. In particular, in drying food products the conditions in the microwave treatment may be selected so that a suitable cellular break-up and puffing up of the product occurs which promotes a fast rehydration, for example during pre-cooking. For the majority of food products resting times specific to the product concerned are involved subsequent to microwave treatment which may be suitably set, for example by means of programmed control routines. - Yet a further preferred use of the method relates to drying medicinal drugs subject to particularly stringent hygiene code requirements. These can be easily complied with, because the products to be treated do not come into contact with a conveyor belt or similar conveyor means which are difficult to clean, the products instead coming exclusively in contact with transport receptacles which are relatively easy to clean and sterilise.
- It is to be noted that the method in accordance with the invention is suitable not only for drying solid, lumpy or grainy substances or products, but also for drying liquid or pasty substances. For example, the method may be put to use in the production of orange juice powder, whereby an intensive pre-drying and thickening of the orange juice or orange juice concentrate takes place in the pre-treatment chamber33 followed by microwave treatment with final after-drying into a solid product.
- Referring now to FIG. 4 there is illustrated in the lower half thereof a
transport receptacle 4 configured as a dish with arim 40 on all sides and having several guide posts 42. The upright guide posts 42 are located in the vicinity of the corner points so that the guide posts 21 are arranged on a basic square. The guide posts 42 are used to mount a plate having suitable guide holes or a net or a sieve. Where several nets or plates are stacked one on the other the cylindrical guide sleeves (not shown) serve as spacers, the level of which is adapted to the thickness as usual in heat-treating and amounting to 70 to 80 mm, for example. The height of therim 40 and of the guide posts 42 is dimensioned so that also in a stacked arrangement of several nets or plates the guide posts protrude from the topmost plate or net to permit a final net to be mounted to prevent escape of the product into the treatment chamber, for example, during puffing. - Referring now to FIG. 4a there is illustrated how the
rim 40 of thetransport receptacle 4 may also be configured relatively shallow or even eliminated altogether if the product to be dried adheres to the plate or net by itself. As evident from FIG. 4c theguide post 42 may also be totally eliminated when therim 41 of the receptacle is configured stepped, for example, including several mountingsurface areas guide post 42 may be eliminated when the nets or plates to be stacked in thetransport receptacle 4 are provided with spacers suitable in height. Preferably there is provided between therim - In the following, the reference numerals as used in the drawings are explained.
- List of Numerals
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rim 41
Claims (15)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US09/911,303 US6442866B2 (en) | 1998-02-04 | 2001-07-23 | Method and apparatus for drying or heat-treating products |
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE19804386 | 1998-02-04 | ||
DE19804386A DE19804386C2 (en) | 1998-02-04 | 1998-02-04 | Method and device for drying or heat treating products, in particular with the aid of microwave radiation, and banana chips and banana powder produced therewith |
DEDE19804386.4 | 1998-02-04 | ||
US09/244,278 US6297479B1 (en) | 1998-02-04 | 1999-02-03 | Method and apparatus for drying or heat-treating products |
US09/911,303 US6442866B2 (en) | 1998-02-04 | 2001-07-23 | Method and apparatus for drying or heat-treating products |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US09/244,278 Continuation US6297479B1 (en) | 1998-02-04 | 1999-02-03 | Method and apparatus for drying or heat-treating products |
Publications (2)
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US20020017033A1 true US20020017033A1 (en) | 2002-02-14 |
US6442866B2 US6442866B2 (en) | 2002-09-03 |
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US09/911,303 Expired - Lifetime US6442866B2 (en) | 1998-02-04 | 2001-07-23 | Method and apparatus for drying or heat-treating products |
US09/943,132 Abandoned US20020006464A1 (en) | 1998-02-04 | 2001-08-30 | Method and apparatus for drying or heat-treating products |
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Application Number | Title | Priority Date | Filing Date |
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US09/244,278 Expired - Lifetime US6297479B1 (en) | 1998-02-04 | 1999-02-03 | Method and apparatus for drying or heat-treating products |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
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US09/943,132 Abandoned US20020006464A1 (en) | 1998-02-04 | 2001-08-30 | Method and apparatus for drying or heat-treating products |
Country Status (7)
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US (3) | US6297479B1 (en) |
AR (1) | AR013020A1 (en) |
BR (1) | BR9900522A (en) |
CO (1) | CO5050351A1 (en) |
DE (1) | DE19804386C2 (en) |
PA (1) | PA8467901A1 (en) |
PE (1) | PE20000577A1 (en) |
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- 1999-01-29 PA PA19998467901A patent/PA8467901A1/en unknown
- 1999-02-02 CO CO99005563A patent/CO5050351A1/en unknown
- 1999-02-03 BR BR9900522-0A patent/BR9900522A/en not_active Application Discontinuation
- 1999-02-03 US US09/244,278 patent/US6297479B1/en not_active Expired - Lifetime
- 1999-02-04 AR ARP990100479A patent/AR013020A1/en unknown
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2001
- 2001-07-23 US US09/911,303 patent/US6442866B2/en not_active Expired - Lifetime
- 2001-08-30 US US09/943,132 patent/US20020006464A1/en not_active Abandoned
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Also Published As
Publication number | Publication date |
---|---|
US20020006464A1 (en) | 2002-01-17 |
US6442866B2 (en) | 2002-09-03 |
US6297479B1 (en) | 2001-10-02 |
DE19804386C2 (en) | 1999-12-30 |
AR013020A1 (en) | 2000-11-22 |
PA8467901A1 (en) | 2000-05-24 |
DE19804386A1 (en) | 1999-09-09 |
CO5050351A1 (en) | 2001-06-27 |
PE20000577A1 (en) | 2000-07-11 |
BR9900522A (en) | 2000-06-13 |
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