CN101473084A

CN101473084A - Dryer with drying sequence using an additive

Info

Publication number: CN101473084A
Application number: CNA2007800227329A
Authority: CN
Inventors: U·克罗伊茨费尔特; T·卢瓦; J·谢尔; H-J·克吕; D·施密特; H·朗普
Original assignee: Electrolux Home Products Corp NV
Current assignee: Electrolux Home Products Corp NV
Priority date: 2006-05-02
Filing date: 2007-04-27
Publication date: 2009-07-01
Anticipated expiration: 2027-04-27
Also published as: EP1852542A1; ATE500376T1; ES2362902T3; CN101473084B; PL1852542T3; EP1852542B1; EP2305879A1; DE602006020413D1

Abstract

The invention relates to a method of treating textiles in a dryer, in particular in an exhaust air and/or a condenser dryer or in a washing machine having a drying unit, wherein the method comprises at least one program sequence of supplying (S) at least one additive into a drum of the dryer, and within the at least one additive supplying sequence (S) changing the drum rotation direction and/or changing the air flow rate and/or air flow or fan rotation direction.

Description

Drying machine with the drying sequence that uses additive

Technical field

The present invention relates to utilize to clothing and supply the agenda of at least a additive and, wherein in the additive delivery sequences, reduce air-flow at drying machine, especially in exhaust and/or condenser dryer or have the method and apparatus of handling textiles in the washing machine of functions/drying.

Background technology

EP1441060A1 discloses a kind of drumdrier, and this drumdrier has one or two that be provided with near the loading door of this drying machine and injects unit to inject the additive of similar water steam, cleaning agent, aromatic or disinfectant to drum barrel.Its propose to reduce, stop or oppositely the air-flow by drum barrel to optimize interactional efficient between the additive that injects and the clothing.In order to change this air-flow, in the air duct of drum barrel supply dry air, fan is being set, wherein this fan is driven by the motor that separates with the CD-ROM drive motor of drum barrel under the independent control of control module.

Summary of the invention

The objective of the invention is further to improve in additive supply process, to handle the method for textiles and provide and have the drying machine that is adapted at reducing to small part in the additive supply process member of air-flow.

The present invention limits in

claim

1,17,18 and 26 respectively.

Specific embodiment limits in the dependent claims.

According to claim 1, a kind of method is provided, wherein-special in the process of supplying at least a additive to the drying machine drum barrel-this drum barrel direction of rotation changes, preferably during this supply agenda, repeat to change, and/or this air velocity and/or the variation of this airflow direction, preferably this air velocity or airflow direction repeat or periodically change during this supply agenda.

By change the drum barrel direction of rotation during this supply agenda, the clothing of this drum barrel of packing into rearranges and redistributes in this drum barrel, has increased so at least a additive is fed to possibility on every part of each weaving face fabric.Even this additive delivery sequences is the short time, for example only 1-2 minute, twice, three times or more this directions oppositely also were enough to distribution of additives to clothing during this supply agenda.Forward can be near consistent with the ratio of reverse rotation time, perhaps oppositely or the short period of rotation forward can be respectively by forward or the interruption of the more long period of reverse rotation.For example, the ratio of rotational time can be respectively in the scope of 3-10 or 0.1-0.3 forward and backward.Can be independent of drying machine type (for example condenser dryer, exhaust air dryer) and depend on the fan that produces air-flow and whether be connected synchronously and use this intermittence drum barrel to rotate (also can referring to following embodiment) with the motor of this drum barrel.

By changing the variation that fan or pressure fan direction of rotation are implemented in airflow direction during the supply agenda.This variation can with drum barrel rotation change synchronously (for example only using a motor to drive this drum barrel and fan) or can with this drum barrel rotating part synchronously or be independent of this drum barrel rotation.Change this flow direction and also improved the redistribution of additive concentration in the drum barrel.Change drum barrel direction of rotation and airflow direction preferred combination and use, change independently of one another but also can supply in the agenda at this.

The variation that the inventor observes the fan direction of rotation does not cause the variation of airflow direction immediately, but the air column that is present in this drum barrel, the entrance and exit passage has inertia, especially in the condenser dryer of extra use condenser.This means that fan must move several seconds before air column begins to enter required direction after beginning, if or the rotation of this fan be reversed, its flow direction at this air column stop and beginning reverse flow before also lasting several seconds.In this reversal periods or stop/in the beginning cycle, effectively or mean flow rate far below nominal flow rate, after this fan for example rotated one minute in one direction, this flow velocity reached balance.Therefore, in one embodiment, proposition provides forward and reverse direction of rotation to this fan during the supply agenda, wherein the Peak Flow Rate that obtains during this cycle in each cycle is less than 70% (this nominal flow rate is at normal operating Peak Flow Rate, is just handling the dry, flowable forward that this fan was produced after a minute with rated speed) of nominal flow rate.Should be noted that when this Peak Flow Rate is 70% in each cycle the mean flow rate in these cycles even lower.

In replaceable or combination embodiment, can be observed the volume exchange in the drum barrel, this volume exchange can realize forward with during the swing circle at each, wherein flows out the volume flow of this drum barrel less than 50% of this drum volume in each swing circle.Two solutions-independent or combination-have such effect: during this supply agenda, be supplied to the additive of drum barrel mainly to remain in this drum barrel to produce and the interactional maximal efficiency of clothing.Also reduce the consumption of additive thus and reduce the removing of additive (in exhaust air dryer, remove to dryer outer or in the condensing type drying machine, remove in the condenser jar).

According to EP1441060A1, propose by stopping drive fan separate motors, reduce its rotating speed or oppositely its direction of rotation stop, reducing or reverse this air-flow.According to the embodiment of the invention, throttling or fairing are provided, when initiatively or during Passively activated this device, throttling or stop air-flow by drum barrel.This throttling or fairing can be arranged on the optional position in the gas channel that is connected with this drum barrel.For example, it can be arranged on lint filter, the guiding air enters the air duct in the drum barrel or guides this air from the air duct that this drum barrel is discharged.It also can be arranged in the condenser unit, and still, preferably this throttling or fairing are integrated in the air duct and passive device preferably.But this throttling or fairing also can be operated under the control of control module, for example use the actuator as dynamo-electric magnetic switch.In a preferred embodiment, this throttling or fairing and at least one trap or deflecting element combination, this trap or deflecting element are used for switching between the bleeding of changeable exhaust/condensation air drying machine and circulating air operation.When using throttling or fairing, air-flow by this drum barrel is to small part and/or reduce at least temporarily or stop, the fan that so for example produces this air-flow can move forward and/or on the inverse direction, and stops or reducing the air-flow that is eliminated or reduces by this throttling or fairing during this supply agenda.

The present invention also provides fan or the pressure fan with particular characteristics, causes the gas delivery speed difference forward or in the reverse rotation process when this fan or pressure fan rotate with same rotational speed.Use this specific fan duty, these forward can be obviously different each other with the time period of reverse rotation, and air volume exchange in the drum barrel and/or the maximum airflow on each direction keep the same threshold less than each direction simultaneously.

For example the effect that reduces this fan transporting velocity in inverse direction is to reduce air-flow by this drum barrel by the reverse rotation of this fan.Preferably, this drum barrel and this fan rotate synchronously, this means only to use a motor-driven fan and drum barrel.Here do not mean that with identical speed rotation with the term of " rotation synchronously " of following this drum barrel and fan, but at least in one direction with predetermined gear transmission ratio rotation (for example this fan is than fast 20 times of this drum barrel rotating speed).Like this, only, significantly reduce this flow velocity by temporary transient oppositely this drum barrel rotation and fan rotation.In another embodiment, this embodiment is replaceable or additionally be used for the foregoing description, uses the fan with the specific delivery rate characteristic that depends on rotation speed of the fan.This means that the transporting velocity that is used to produce air-flow non-linearly depends on rotating speed, and when rotating speed when specified or maximal rate reduce, the reduction of transmission speed is far above the reduction of rotating speed.Preferably, the reduction of rotating speed 20% causes the reduction of transporting velocity at least 40%, preferably at least 55% reduction.Thus, also significantly reduce air exchange in this drum barrel.The embodiment of this method can little by little make up, and for example, if reduce output speed on inverse direction, the rotating speed on inverse direction can be higher than the rotating speed that forwards makes progress, and wherein reduces with rotating speed and uses hypergeometric example transporting velocity to reduce.Can recognize that to come the drying machine of the structure of drive fan and drum barrel be especially easily to these embodiment for having single-motor.

In another embodiment, drum barrel rotating speed and/or air velocity are conditioned according to the type of textiles and/or the weight that are loaded into this drum barrel.If for example will hang down the clothing of volume or low weight this cylinder of packing into, the distribution of air-distribution between the clothing and at least a additive that causes thus is enough to obtain high efficiency.But, if the clothing of high volume or high weight is packed in this drum barrel, clothing has hindered the distribution of the additive that is supplied to drum barrel, and therefore utilize back draught that air is partly introduced air after oppositely more again from the drum barrel sucking-off and at flow direction or intermittence air-flow improve this distribution, the extra stirring of the air column in the drum barrel has improved the distribution of additives to the clothing Zone Full like this.This causes at additive efficient (owing to additive being discharged the loss of this drum barrel) and this additive in the compromise between being evenly distributed between the high volume of laundry.And, because in this agenda, total time lack (for example 1-3 minute) relatively, preferably optimize rolling of clothing in the drum barrel by the load that makes the drum barrel rotating speed be fit to the volume of this textiles or this textiles to what this drum barrel was supplied at least a additive.For example, in the situation of low volume of laundry, the rotating speed that reduces this drum barrel reduces this drum barrel rotating speed simultaneously and changes direction of rotation heavily to distribute to the outside internally or to roll this clothing to avoid the textiles ring on the drum barrel circumference.As another example, textiles that reference is dissimilar and the hot water and steam that uses as at least a additive to this textiles, wherein this cleaning action is used for the particular type textiles.For example silk goods can not be by the vapours superheated and are only used the very short action period, during this supply agenda, keep this air-flow to avoid superheated like this, and cotton goods are insensitive to superheated, preferably cotton goods are stopped air-flow, this cotton goods need more steaminess to penetrate this cotton preparative layer.

Especially, when the direction of rotation that changes this drum barrel heavily distributing this clothing and improve the uniformity of additive treating, and when while fan and drum barrel rotated synchronously, the reverse rotation direction time was longer than the direction of rotation time forward.For example, when reducing the transporting velocity of this fan on the reverse rotation direction, the uneven ratio of this direction of rotation reduces the air exchange in the drum barrel and reduces the loss of this at least a additive thus.

In a preferred embodiment, this processing method comprises at least two successive additive delivery sequences, especially three or four additive delivery sequences.For example work as steam and use, or the concentration of this additive (for example humidity) provides several supply agendas can avoid the superheated of clothing when being subjected to the restriction of certain threshold level as additive.Also can in the different additive delivery sequences, supply the processing parameter that different additive and/or change are used for each or some additive delivery sequences.If for example need in the first additive delivery sequences, improve removing of smell, all or part of air in this drum barrel is discharged into outside (exhaust air dryer or combination exhaust/condensing type drying machine), like this, the material that causes this smell removes fully or significantly from clothing and drying machine.Then, in additive delivery sequences subsequently, can stop or significantly reducing removing air and additive, improve the efficient of additive supply like this from this drum barrel.If for example need improve the removal fold or the crease effect of additive delivery sequences, preferably open this additive supply again with predetermined beginning condition, this condition is for example rebuild in the stage of interrupting two cycles between the successive additive supply subsequence.Preferably, the time between before or after this additive delivery sequences, carry out dry and/or the cooling sequence, its set up the additive delivery sequences specific beginning conditioned disjunction its kept the effect of additive delivery sequences.For example, will begin humidity and be reduced to particular value before beginning additive delivery sequences, the efficient of described so at least a additive is owing to the high humility of clothing in the drum barrel reduces.Perhaps with clothing heating or be cooled to particular value for additive delivery sequences optimum, just by the cooling clothing, can cause temperature shock when the supply vapours, this will improve prevents crease effect.And, after in additive supply subsequence, using vapours, follow-up cooling and/or drying program remove hot-air and humidity, like this when having carried out this follow-up cooling and/or drying program after this additive delivery sequences, the user can remove the have required final moisture content clothing of (flatiron is auxiliary) at once.

According to claim 17, a kind of drying machine with control module is provided, this control module control additive feeding mechanism, the driver element that is used to rotate the motor of drum barrel and is used for drive fan, wherein this driver element can comprise the motor that is used to drive this drum barrel.Be used for additive is fed in the delivery sequences of drum barrel, this control module is used to control the rotating speed of motor drum barrel direction of rotation and/or fan and/or turn to.Control the effect of the rotating speed of this fan and/or drum barrel and/or direction and above the certain operational modes method and the embodiment at claim 1 be described, and correspondingly be applicable to here.

According to claim 18, a kind of drying machine is provided, wherein fan produces the air-flow by drum barrel, and wherein the transporting velocity of fan non-linearly depends on its rotating speed and/or direction of rotation, non-linearly depends on the rotating speed of the driver element that drives this fan especially.As mentioned above, use fan with nonlinear delivery rate characteristic, so for example forward with inverse direction on transporting velocity (with identical rotating speed absolute value) differ from one another, and/or transporting velocity does not reduce pro rata with the reduction rotating speed.The technical scheme of this drying machine is particularly useful for reducing cost, because can drive drum barrel and fan by single-motor, and flow velocity and to small part the separating of drum barrel rotating speed of the non-linear realization by this fan transporting velocity by drum barrel preferably wherein.

In a preferred embodiment, driver element comprises and breaking away from or jockey that this installs according to the motor rotation status, and just rotating speed and/or direction of rotation are connected or separate with motor.For example, this release unit is as being used for the flywheel of bicycle, when this motor when forwards upwards turning round, this release unit is drive fan only, and when motor or driver element moved on inverse direction, this release unit separated.Replacedly or additionally, provide a kind of clutch by operated by centrifugal force, this clutch separates and/or changes the position of fan blade with fan with motor, and this also causes the rotation that reduces transporting velocity or stop this fan.

According to claim 26, the another embodiment of drying machine is provided, it combines with above-mentioned drying machine or has the feature of above-mentioned drying machine.According to this embodiment, air-flow throttling and/or fairing are arranged in air intake and/or the exit passageway or belong to this air intake and/or exit passageway, and this inlet and/or exit passageway this air that is used to circulate enters this drum barrel or discharges from this drum barrel.The meaning that it should be noted that " inlet " and " outlet " is not limited to allow air-flow enter or discharge at this, but " outlet " can be the loading opening of drum barrel, and it is used as air outlet slit traditionally in drying machine.Temporary transient at least throttling of this air-flow throttling and/or fairing and/or the air-flow of rectification in one of air duct, and can for example use actuator and active operation, or can be for example Passively activated by air-flow.The binding operation method has been described more such embodiment in the above.

Description of drawings

Reference is as the example preferred embodiment of the present invention illustrated in the accompanying drawings, wherein in detail:

Fig. 1 is the schematic diagram of input program selection and programs option,

Fig. 2 is the drying machine control element,

Fig. 3 is the block diagram that the exemplary process circulation that comprises the steam treatment sequence that is used for the clothing cleaning is shown,

Fig. 4 be the air stream drives of this drying machine and guiding elements and

Fig. 4 A is the detailed view of flow valve.

The specific embodiment

Fig. 1 is schematically illustrated can be by the available programs of user's selection and the selection kind of programs option.Command selection (procedure Selection) and option are shown select (weight input, the input of beginning humidity, final moisture content input).For the exemplary dryer 2 of

service chart

2 and 4, do not need to carry out all optional users and select or optional testing result.Preferably, carry out the input of type of textiles and/or weight, because for example be supplied to the additive capacity of clothing to depend on clothes weight and/or type of textiles.In the exemplary embodiment below, describe the whole input types shown in Fig. 1, need simultaneously to remember that these input types are not all must carry out in each or every kind of situation or each pattern of drying machine.(for example procedure Selection and type of textiles are selected) carried out in some inputs before beginning this program cycle, and other inputs were selected in the incipient stage.For example, when this dried had begun, beginning humidity can be determined by the humidity sensor 14 of drying machine 2.Preferably, carrying out the user before the beginning dry cycle selects and imports.

As shown in Figure 1, manually carry out type of textiles input (cotton, synthetic fiber, wool, silk etc.) by procedure Selection or user.If for example user-selected program is used in particular for the type textiles, the user just needn't import the type of textiles separately.If this program is not the textiles that is used for particular type, then selectively propose to carry out corresponding input to this user.

Similarly, the final moisture content that is used for the clothing final moisture content when this dry cycle finishes is imported or is selected to be scheduled to or selectively to be imported by this user by corresponding program.If for example selected program comprises " flatiron is auxiliary " or " pre-flatiron ", the final moisture content of this clothing is higher than the final moisture content of not determining at the clothing in the program of flatiron so.Selectively, the user can increase this option to any drying program by this programs option of manual selection.Carry out this selection, this flatiron of aid in later by pressing " flatiron is auxiliary " button by the more high humility of this clothing.

The beginning humidity of this clothing can be determined automatically or can manually be imported by the user in incipient stage of this drying program by humidity sensor 14.For example, user's input has " wetting ", the option of " half-dried " or " drying ".

The clothes weight of packing in the cabin of this drying machine 2 can be determined automatically or can be imported by the user by weight sensor 12.For example, this user input be similar " height ", " in " and the weight selection of " low ".Or it can be the drum volume input of similar " expiring ", " half-full " and " on a small quantity ".If carry out the load input of this volume, can consider the actual weight (see in Fig. 1 arrow " weight " and " type " input between) of type to obtain this clothing of this textiles.And when this weight of input and beginning humidity, use the humidity input to release the dry weight (seeing the arrow between " beginning humidity " and " type " input among Fig. 1) of this textiles by the water weight that cuts expectation.Certainly, also can consider this type of textiles calculating dry weight, this dry weight is one of factor that needs when determining as be supplied to the additive parameter of additive capacity and so on of clothing.

Fig. 2 illustrates the main element of drumdrier 2 with block diagram.This drumdrier 2 is Electronic Control program dryer, and this program is carried out and control by CPU 4.The user interface of this drying machine comprises display part 10 and TIP 8.The option selector 24 that this TIP 8 has the program chooser 20 that is used to select main program, be used to import the input or the instruction unit 22 of for example type of textiles, weight and beginning humidity and be used for for example selecting " flatiron is auxiliary " etc.The signal of weight sensor 12 and humidity sensor 14 is transferred to CPU to monitor and to control this dry run.Control signal sends to the motor 6 (Fig. 4) that drives drum barrel 26 and sends to additive injector 16 by supply pipe 17 and nozzle 19 one or more additives are injected this drum barrel 26 from CPU 4.This additive injector 16 is included in water supply (tank and pump) and the heating element heater that moves under the control of control device 4.

Describing shown in Figure 1 being used to now selects and the user of option and the interaction of user interface: display part 10 is the touch-screens that receive by the user that soft key the produced input that shows on the touch display screen, and it represents at least a portion of this TIP 8.As long as this drying machine is powered, user-selected main program just is presented on this display, and selects one of these main programs.If type of textiles is not selected to determine by this main program, is shown the dissimilar textiles that is used for selecting.Afterwards, the weight that is used for the selection of stowage as mentioned above-execution acquiescence thus being shown selects.When carrying out the selection of this weight or load, show start button, show other option beginning humidity as mentioned above and final moisture content button simultaneously.These other options can be activated or be skipped by utilizing this start button to begin dry cycle by the user.Replace this touch-screen, the rotary selector that combines with display can be provided and be used for the other button that option is selected.

Table I illustrates the example of the drying program selected that is used for the clothing cleaning, wherein selects according to user's procedure Selection or option, and the auxiliary routine subsequence is added into (example shown in Figure 3) in the dry agenda of this trunk.Because weight, the input of beginning humidity and type of textiles, the duration of this subsequence needs to regulate, and clothing final moisture content of this subsequence and type and the additive capacity that is applied to clothing need to regulate (carrying out separately in the subsequence separately if desired).

Table I: the underlying parameter of the program subsequence of total drying sequence

In a preferred embodiment, this drying machine has one or more following main programs of can selecting to clean: commercial cleaning, cotton refreshment, synthetic fabrics cleaning, synthetic fiber shirt cleaning.The principal character of these cleaning main programs is (when not using average load (for example 1 jacket), but use lower load (for example 1 pair of trousers) or more top load (for example 1 suit) and when importing with the option selector, this additive supply reduces in proportion or increases in every kind of program):

Commercial cleaning:

Be preferred for cleaning suit, trousers, jacket or coat.Low additive supply (for example water of average 150ml); Short steam or additive injection length section (for example 2 minutes); At least initial steam inject that the stage partly ventilates or exhaust to remove smell; Temperature in steam treatment or the additive injection process is remained in lower temperature range; Anti-folding line optimization ventilation and drum barrel rotation.

Cotton refreshment:

Be preferred for cleaning shirt or COTTON FABRIC.Medium additive supply (for example water of average 170-190ml); Medium steam or additive injection length section (for example 2.5-3 minute); Temperature in steam treatment or the additive injection process is remained in the moderate temperature scope.

The synthetic fabrics cleaning:

Be preferred for cleaning synthetic fabrics.High additive supply (for example water of average 200-250ml); Higher steam or additive injection length section (for example 3-4 minute); Temperature in steam treatment or the additive injection process is remained in the higher temperature scope.

Synthetic fiber shirt cleaning:

Be preferred for cleaning synthetic fabrics.Medium-Gao additive supply (for example water of average 180-220ml); Higher steam or additive injection length section (for example 3-4 minute); Temperature in steam treatment or the additive injection process is remained in the higher temperature scope; At least initial steam inject that part is ventilated or exhaust to remove smell; 3 to 4 steam treatment cycles; Anti-folding line optimization ventilation and drum barrel rotation (exempting from flatiron).

Fig. 3 illustrates sequential chart, and this sequential chart illustrates the typical main cleaning procedure that comprises steam treatment.Selectively, the selection or the detection of the high initial humidity that causes owing to the clothing by the previous cleaning of for example taking out start predrying or preliminary treatment.Like this, high beginning humidity and steam treatment are incompatible, and the humidity of this clothing need lowlyer could begin steam treatment.Another option of being selected by the user is the anti-folding line stage, and this anti-folding line stage is cleaned sequence (steam treatment) afterwards at this, and does not prevent to produce fold or folding line immediately finishing this clothing behind this cleaning procedure when the drum barrel of drying machine removes clothing.

In Fig. 3, this program cycle begins with ventilating stage, wherein determines the beginning humidity and the minimum weight (selectively) of this clothing by humidity sensor 14 and weight sensor 12.This ventilating stage comprises the predrying stage (by activating the part ventilating stage that this heater and condensation and/or exhaust are carried out), reduces this and begin humidity in this ventilating stage.Selectively, cooling stage C is after the predrying stage as this ventilating stage V part.In this cooling stage, be reduced to the beginning temperature that is preferred for beginning this steam treatment by this predrying temperature that causes.Be the steam treatment phase that comprises steam supply S after the ventilating stage V, impose on clothing by additive injector 16 at this steam treatment phase additive.Last steam is the ventilating stage V that combines with cooling stage C after the supply stage, wherein do not supply additive and its with cloth drying to the given final moisture content of main program or be dried to the value that the programs option of user's selection is revised.In this ventilating stage V (preferably the time comprising cooling stage in beginning), the clothing temperature is lowered, so for example when this steam treatment at last when this drying machine removes this clothing, remain among the steam treatment phase S result to the clothing realization.And this cooling stage is as preventing that the user from removing the safety measure of the clothing that is heated by steam supply stage S from drying machine.

During this preliminary treatment, steam treatment and anti-crease sequences, drum barrel is stirring forward with on the reverse rotation direction always, wherein this drum barrel with shown in forward normal speed and oppositely normal speed drive (for idealized not illustrating quickened and the decelerating phase).Begin humidity and/or procedure Selection according to this, can skip this preprocessing sequence fully, and can begin with steam treatment by ventilating stage V.Use two supply stage S in this steam treatment sequence, wherein these two steam supply stage S are interrupted by ventilating stage V.Thereby this ventilating stage V is than this steam treatment phase S long cooling C clothing and eliminate the humidity that is produced among the steam supply stage S.Can utilize the temporary transient at least heating of heater 41 to flow into the air of this drum barrel 26 with the cloth drying (Fig. 4) in auxiliary this ventilating stage.As shown in Figure 3, thus the last ventilating stage V in this steam treatment sequence can longlyer be enough to eliminate by to this clothing supply humidity that steam brought.In two steam supply stage S, stir this drum barrel to roll this clothing and supply steam with institute and be evenly distributed on this clothing.

Two examples with the drum barrel stirring in this steam supply stage S of example 1 and example 2 names are shown.In example 1, the ratio with the reverse rotation cycle is consistent forward.The rotation of this exemplary drum can be used for the drying machine that fan rotation and drum barrel rotation be separated out (for example from EP1441060A1 known two motors), and perhaps fan separates with the motor of driving drum barrel.In two kinds of situations, during this steam supply stage S, interrupt ventilation V, and the steam (see figure 4) of introducing in the drum barrel 26 by nozzle 19 is kept at fully in this drum barrel volume to avoid any loss of steam jet 18.Example 2 is with reference to the embodiment of drum barrel rotation, it is preferably used in the following drying machine, wherein fan 32 is rigidly connected on the motor 6 that also drives drum barrel 26, but wherein reverse delivery rate (motor with the normal speed reverse rotation time transporting velocity) is significantly less than transporting velocity when this fan 32 when specified direction of rotation forward drives.In the ideal style, also in the steam supply stage S of example 2, ventilation V (air-flow) is zero as shown in Figure 3.This is owing to this drum barrel during the stage of example 2 mainly rotates on inverse direction, and this fan rotates on inverse direction thus, causes almost nil air communication to cross this drum barrel.Preferably, even in this embodiment, the change of drum barrel direction of rotation can be provided, but, swing circle is lacked (only several seconds) very much forward, and the inertia of the air column in this drum barrel and the flow channel only to produce very little flow velocity (not shown in Fig. 3 in order idealizing) and produce minimum air exchange thus in this drum barrel like this.

When finishing this steam treatment sequence, anti-crease sequences is according to the pre-design selectively actuatable of user's selection and/or this drying machine control module 4.Interrupt the identical mode of ventilation V among the stage S to supply with the steam of steam treatment sequence, in the steam supply program S of this anti-crease sequences, interrupt air draught V, just drive drum barrel 26 and fan 32 respectively, fan 32 is separated from motor 6, the fan 32 of the reverse delivery rate with obvious reduction is provided or handles this fan off and on, like this because the inertia of this air column produces low-down absolute air flow by this drum barrel 26.

Fig. 4 schematically shows the air stream drives and the guiding elements of this drying machine 2.For purpose of explanation, several members of this air-flow of control are shown, remember that simultaneously they can be independently or combine with one or more other air-flow control elements and be used for the actual drying machine.The control element of air-flow shown in these is that fan 32 is connected to the flywheel 30 on the motor 6, the fan 32 with blade design, swing trap 52 and flow valve 46, and this this rotating speed of blade design consideration and/or this direction of rotation cause non-linear air-flow.

This motor 6 can worked on the direction of rotation forward and backward, and by being with 28 to drive drum barrel 26.In a preferred embodiment, control module 4 control motors 6 are with the rotation on one of forward/reverse direction of rotation at least of at least two different rotating speeds, and preferably the motor rotary speed of fan selectively is controlled in the velocity interval.As directed, flywheel 30 is connected to motor 6 with fan 32, and wherein fan 32 only drives in direction of rotation forward, and separates (similar bicycle freewheel) with the motor rotation on the reverse motor driving direction.This fan is arranged in the access road 34, enters drum barrel 26 at normal this access road steering current in service.Moisture detector 14 (not shown among Fig. 4) is integrated in the drum barrel 26.Air-flow by drum barrel 26 is in the load port output of this drum barrel and be conducted through lint filter 38 and enter exit passageway 36.In the drying machine of condensation type, by condenser 40, this condenser 40 is used for condensation and enters the moisture of access road 34 from the air of exit passageway 36.Air from condenser 40 enters heater 41, and the air that this heater heating is circulated is to improve drying effect.Swing trap 52 is arranged in the access road 34, but also can be arranged in the exit passageway 36, for example as the part of this lint filter.Swing trap 52 is opened this air duct on airflow direction forward, and in reverse flow direction maybe when stopping to close this air duct when this air flows.Thus, this swing trap 52 has rectified action, to prevent the air circulation on inverse direction.The example shown of swing trap 52 this means at the different pressures that forwards makes progress and opens this trap by operated by weight, and when this air-flow reduces and stops, closing this trap gradually under gravity is auxiliary.

Guiding and switching valve 46 are connected to access road 34 and exit passageway 36, and this entrance and exit passage has valve element 48, and this valve element can or rotate to shown in Figure 4 three position I, II and III at the control lower swing of control module 4.Valve chest is connected on exhaust passage 42 and the inlet channel 44, and these two passages are connected to the inner air circulatory system air of dryer outer.According to the position of this valve element 48, fresh air is inhaled into air circulation system, and correspondingly has the moisture of combustion gas and air is discharged by exhaust passage 42.

Fig. 4 A illustrates the detailed view of the valve 46 with valve element 48.Valve element 48 is formed by rotatable triangular part (for example having the hollow body of plate as sidewall), and wherein plate 50 extends from the top of triangular part.Shown in the position I among Fig. 4, air-flow or block airflow that the triangular part of valve element 48 blocks from exit passageway 36 enter exit passageway 36, block the air-flow in the air circulation system thus, just pass through the air-flow of this drum barrel 26.At the position of this valve element 48 II, the air-flow between these triangular part board 50 guiding access roades 34 and the exit passageway 36, and vice versa.At the position of this valve element 48 III, from or the air-flow that leads to access road 34 and exit passageway 36 get clogged and exit passageway 36 and exhaust passage 42 UNICOMs, and access road 34 and inlet channel 44 UNICOMs.The centre position (not shown) is provided, partially mixed at this position circulating air and extraneous air to be used to make up condensation/bleeding.

By using flywheel 30 and/or swing trap 52 to be used for the reverse rotation of drum barrel 26 or motor 6, air-flow is cut off and does not have air to flow through drum barrel.When using valve 46 and valve element 48 to be positioned at position I, this is suitable equally, to stop the air-flow in the air circulation system.

Reference numerals list

2 drumdriers

4 CPU

6 motors

8 TIPs

10 display parts

12 weight sensors

14 humidity sensors

16 additive injectors

17 supply pipes

18 steam jets

19 nozzles

20 program choosers

22 indicating sections

24 option selectors

26 drum barrels

28 bands

30 flywheels

32 fans

34 access roades

36 exit passageways

38 lint filters

40 condensers

41 heaters

42 exhaust passages

44 inlet channels

46 valves

48 valve elements

50 plates

52 swing traps

Claims

1. method of handling textiles in drying machine (2), described drying machine be exhaust and/or condenser dryer or have the washing machine of drying unit particularly, and this method comprises:

At least a additive is fed at least one the supply agenda (S) in the drum barrel (26) of drying machine (2), in described at least one additive delivery sequences (S): change the drum barrel direction of rotation, and/or change air velocity and/or air-flow and/or fan direction of rotation.

2. method according to claim 1, comprise be chosen in each forward with the reverse rotation direction on fan rotational time section, like this during each time period final or maximum fluidity speed less than 70% of specified flowing velocity, preferably less than 50%, more preferably less than 30%.

3. method according to claim 1 and 2, comprise be chosen in each forward with the reverse rotation direction on fan rotational time section, the percentage of volume of air that flows out drum barrel (2) like this during each time period is less than 50% of nominal flow rate, preferably less than 35%, more preferably less than 20%.

4. according to claim 1,2 or 3 described methods, comprise and utilize throttling or fairing (30,46,52) by throttling or stop air-flow and change air velocity.

5. according to the described method of arbitrary aforementioned claim, comprise that the fan (32) by producing air-flow particularly changes air velocity from motor (6) disengaging that drives drum barrel (26) from motor (6).

6. according to the described method of arbitrary aforementioned claim, comprise that at least one leaf position by changing the fan (32) that produces air-flow changes air velocity.

7. according to the described method of arbitrary aforementioned claim, comprise the temporary transient at least direction of rotation that oppositely produces the fan (32) of air-flow, the transporting velocity of comparing fan with the direction of rotation forward of using same rotational speed reduces at least 50% thus, especially transporting velocity is reduced at least 65%.

8. according to the described method of arbitrary aforementioned claim, comprise that the speed drop of the fan (32) that at least temporarily will produce air-flow is low by at least 20%, the transporting velocity with fan reduces at least 40% thus, thus transporting velocity is reduced at least 65% especially.

9. according to the described method of arbitrary aforementioned claim, comprise driven in synchronism drum barrel (26) at least in one direction and produce the fan (32) of air-flow.

10. according to the described method of arbitrary aforementioned claim, wherein regulate drum barrel rotating speed, drum barrel direction of rotation and/or air velocity according to the type and/or the weight of the textiles of the drum barrel (26) of packing into.

11., wherein regulate the additive capacity that is supplied to drum barrel (26) and/or the duration of additive supply according to the type of textiles of the drum barrel of packing into and/or weight according to the described method of arbitrary aforementioned claim.

12. according to the described method of arbitrary aforementioned claim, wherein additive is steam or comprises the particularly steam of steam, and/or is or comprises one or more in cleaning agent, aromatic, perfume, disinfectant or the bleaching agent.

13. according to the described method of arbitrary aforementioned claim, wherein in additive delivery sequences (S), the direction of rotation of drum barrel (26) changes once at least, preferably changes at least twice, three times or five times.

14. method according to claim 13, the ratio of direction of rotation time and reverse rotation direction time forward wherein, the particularly ratio in forward/reverse cycle continuously are less than 0.5, especially less than 0.3, preferably less than 0.2.

15. according to the described method of arbitrary aforementioned claim, wherein said processing method comprises at least two successive additive delivery sequences (S), comprises at least two successive additive delivery sequences being separated or interrupted by ventilating stage (V) especially.

16. according to the described method of arbitrary aforementioned claim, wherein before and/or afterwards, between at least two additive delivery sequences (S), carry out dry (V), heating and/or cooling (C) sequence at least one additive delivery sequences (S) at least one additive delivery sequences (S).

17. drying machine (2), particularly exhaust and/or condenser dryer or have the washing machine of drying unit comprise:

Rotatable drum barrel (26), it comprises air inlet (34) and gas outlet (36);

Be used to drive the motor (6) of described rotatable drum barrel (26);

Fan (32) is used for producing the air-flow by described drum barrel (26);

Driver element (6,30) is used to drive described fan (32), and the driver element of wherein said fan can comprise the motor that drives described drum barrel;

At least one additive feeding mechanism (16,17,19), each additive feeding mechanism all are used for to described drum barrel (26) supply additive; With

Be used to control the control module (4) of at least one cleaning sequence, wherein said control module is used to control described driver element (6,30), and described control module is controlled at least one feeding mechanism (16,17,19) to supply additive to described drum barrel (26) simultaneously;

It is characterized in that

During described drum barrel supply (S) additive, the motor (6) that described control module (4) is used to control described drum barrel (26) changes the rotating speed and/or the direction of rotation of described fan with the driver element (6,30) that changes drum barrel direction of rotation and/or control fan (32).

18. a drying machine (2), drying machine particularly according to claim 16 comprises:

Rotatable drum barrel (26), it comprises air inlet (34) and gas outlet (36);

Be used to produce fan (32) by the air-flow of described drum barrel; With

The driver element (6,30) that comprises motor (6), described motor are preferably used for described fan of driven in synchronism (32) and described rotatable drum barrel (26) on a direction of rotation at least;

The transporting velocity of wherein said fan (32) non-linearly depends on rotating speed, wherein said transporting velocity disproportionately reduces with the reduction rotating speed, and/or the transporting velocity of the direction of rotation forward of described fan (32) is higher than the transporting velocity of fan on the reverse rotation direction.

19. according to claim 17 or 18 described drying machines, the transporting velocity of wherein said fan (32) on the reverse rotation direction is less than in 50% of the transporting velocity that forwards makes progress, preferably less than 30%, more preferably less than 15% or 0%.

20. according to claim 16,17 or 18 described drying machines, wherein when the rotating speed of described fan (32), the specified or rated speed of particularly described fan (32) reduced by 20% o'clock, and described transporting velocity reduces above 40%, preferably surpass 50%, more preferably surpass 65%.

21. according to arbitrary described drying machine in the aforementioned claim 17 to 20, wherein said driver element (6,30) also comprise disengaging or jockey (30), described disengaging or jockey are used for according to the motor rotation status, particularly, described fan (32) is broken away from or described fan is connected with described motor from described motor (6) according to direction of rotation.

22. drying machine according to claim 21, wherein said disengaging or jockey are flywheel (30), and/or described fan (32) depends on the centrifugal force that the motor rotation is provided to the connection degree of described motor (6) or state.

23. according to claim 21 or 22 described drying machines, wherein said disengaging or jockey (30) are included in the clutch that is activated by actuator under the control of described control module (4).

24. according to arbitrary described drying machine in the aforementioned claim 17 to 23, the position or the aligning of at least one of wherein said fan (32) or whole blades depend on rotating speed.

25. drying machine according to claim 24, the centrifugal force that the position of wherein said at least one blade or aligning apply by the rotation by fan changes.

26. a drying machine (2) particularly according to arbitrary described drying machine in the aforementioned claim 17 to 25, comprising:

Rotatable drum barrel (26), it comprises air inlet and gas outlet;

Be connected to the inlet channel (34) of air inlet, and/or be connected to the exhaust passage (36) of gas outlet;

Be used for producing fan (32) by the air-flow of described drum barrel (26);

The driver element (6,30) that comprises motor (6), described motor are preferably used for driven in synchronism fan (32) and rotatable drum barrel (26) on a direction of rotation at least;

Air-flow throttling and/or fairing (30,46,52), it is arranged in inlet channel and/or exhaust passage (34,36) or belongs to inlet channel and/or exhaust passage (34,36).

27. drying machine according to claim 26, the throttling of wherein said throttling and/or fairing (30,46,52) or rectification degree are by control module (4), flow direction by air and/or the flow velocity control by air.

28. according to claim 26 or 27 described drying machines, wherein said throttling and/or fairing (46,52) be arranged in air inlet and/or the exhaust passage (34,36) or be arranged on air inlet and/or at least one trap or choke valve that exhaust passage (34,36) are located.

29. according to claim 26,27 or 28 described drying machines, wherein said throttling and/or fairing (46) comprise at least one trap or actuator component (48), and described trap or actuator component are used for partially or completely changing between the exhaust mode of drying machine (2) and circulating air pattern.

30. according to claim 28 or 29 described drying machines, wherein said at least one trap (52) is opened and is closed to small part on reverse flow direction to small part on flow direction forward.