CN102112038A - Dishwasher machine comprising a sorption drying device provided with a sorption material adapted in terms of weight to the wetting quantity in the washing compartment - Google Patents

Abstract

The invention relates to a dishwasher machine (GS) comprising at least one washing compartment (SB) and at least one drying device (TE) for drying items that have been washed, said drying device comprising at least one sorption compartment (BEH) for receiving a reversibly dehydrogenable sorption material, especially zeolite (ZEO), and at least one air-guiding connection channel (VK) which is connected to the washing compartment (SB) for generating an exchange of air between the washing compartment (SB) and the sorption compartment (BEH). According to the invention, a reversibly dehydrogenable sorption material is provided in the sorption compartment, for absorbing a quantity of humidity transported by the air exchange. The weight of the reversibly dehydrogenable sorption material is defined such that the quantity of humidity absorbed by the sorption material is smaller than the quantity of liquid applied to the items to be washed, especially the quantity of liquid applied in a clear rinsing stage.

Description

Have the weight of sorbing material and the dish-washing machine of the adsorption dry device that the moistening amount in the washing container matches

Technical field

The present invention relates to a kind of dish-washing machine, especially domestic bowl-washing, comprise: at least one washing container and at least one drying device that is used for the article after drying is washed, described drying device can have at least one contactor and at least one the air transmitted passage that is used to keep reversible dehydration sorbing material, especially zeolite, described air transmitted passage is between drying device and washing container, to produce air exchange between washing container and contactor.

Background technology

For example the disclosed dish-washing machine of DE10353774A1, DE10353775A1 or DE102005004096A1 all has and is used for the so-called adsorption column of dry tableware.At this, be used in " drying " subroutine procedure of corresponding washing program of dish-washing machine of dry tableware, utilize the washing container process adsorption column of air blast guiding humid air from dish-washing machine, by the reversible material that dehydrates of adsorption column, and with condensing mode from remove moisture the air of process.The reversible material that dehydrates is heated to very high temperature, can makes adsorption column regeneration, desorption just.Like this, the water that is stored in this material will flow out with the high-temperature water vapor form, and the air stream that produces by air blast is introduced in the washing container then.Like this, just can and/or be arranged in the air heat of the tableware and the washing container of washing container with cleaning solution.Proved that this adsorption column is particularly conducive to the dry tableware of energy-conservation, quiet mode.For fear of drying material hot-spot in desorption process, for example can be described according to DE102005004096A1, heater is arranged in the upstream of the air intake of adsorption column along air-flow direction.Although adopted this " air heat " mode to carry out desorption, in fact be difficult to the dry fully ideally reversible material that dehydrates.

Summary of the invention

Task of the present invention is to provide a kind of dish-washing machine, especially domestic bowl-washing, whereby, can be used to further to improve the adsorption effect and/or the desorption effect of reversible dehydration adsorption dry material of absorbing unit of the adsorption dry device of dish-washing machine.

With regard to the dish-washing machine of the above-mentioned type, the mode that solves this task is as follows: being used to of providing in contactor adsorbs the amount of moisture that the weight of the reversible dehydration sorbing material of the amount of moisture that transmits by air exchange makes sorbing material absorb and is less than the amount of liquid that is applied on the article to be washed, and especially is less than the amount of liquid that applies in the cleaning rinsing step.

Suitably the weight of the sorbing material in the coupling contactor makes its part that only absorbs whole amount of liquid, and this part amount of liquid is less than the total amount of liquid that is applied on the article to be washed, and just can use seldom sorbing material efficiently in conjunction with airborne moisture.Like this, just can realize compact contactor structure.

Simultaneously, also can guarantee to reduce and utilize heater to heat to make the required energy consumption of sorbing material holomorphosis, this be because in the reality only to through overmatching or measurement be enough to the well dried sorbing material of washing articles is heated.

According to first kind of improvement embodiment of the present invention, the weight of the reversible dehydration sorbing material that advantageously provides in contactor makes the amount of moisture of reversible adsorption material absorption be substantially equal to the moistening amount of moistening washing articles when the cleaning rinsing step finishes.In this case, described moistening amount refers in particular to and is attached to the article that have been washed when the cleaning rinsing step finishes, be used to keep on the inwall of the basket of tableware and/or washing container and can't flow to the amount of liquid of the bottom of washing container under the gravity effect, in the cleaning rinsing step, the article utilization that has been washed is mixed with the water treatment of stress remover.Adopt the mode of the weight of this coupling sorbing material, can make the wettability power of sorbing material be enough to the air exchange mode in sorbing material basically fully in conjunction with or absorb these moistening amounts.

Preferably, the weight that is placed on the sorbing material in the contactor makes that the amount of moisture of absorption is to be applied to 4%～25%, especially 5%～15% of amount of liquid on the washing articles.

Advantageously, the weight of the reversible dehydration sorbing material in the contactor is 0.2kg～5kg, particularly 0.3kg～3kg, is preferably 0.5kg～2.5kg.

According to a kind of favourable embodiment, contactor can be arranged in the base assemblies of bottom below of washing container.Like this, just can the sorbing material of capacity be placed dish-washing machine, thereby can in the zone of the sidewall of washing container, not waste structure space in the mode of compact conformation.Therefore, the inside dimension of dish-washing machine and external dimensions can remain unchanged basically.

According to a kind of favourable embodiment, drying device can link to each other with at least one inlet with at least one outlet of washing container by at least one air transmitted passage.So just can in the closed-loop path, carry out air circulation.

Especially, can be valuably, the air transmitted passage is arranged in outside the washing container basically, makes that the useful space in the washing container remains unchanged, and just can not reduce.

Especially, the outlet side pipeline section of air transmitted passage links to each other with at least one inlet of washing container in the zone of the bottom of close washing container.Like this, help contactor is placed the base assemblies of dish-washing machine.By this way can be so that dried air keep the shortest from the outflow path of contactor until the washing container that flows into dish-washing machine, thus unnecessary thermal loss avoided as far as possible.

Especially, the entrance side pipeline section of air transmitted passage can be above the bottom of washing container, particularly linking to each other with at least one outlet of washing container with the approaching zone of the top cover of washing container.So just can or clean in the feed opening of the entrance side pipeline section that avoid the spray equipment of shower water from washing container to enter the air transmitted passage in flushing process or the middle flushing process as far as possible in for example washing.Otherwise will cause the partially or completely saturated unfriendly and damage of sorbing material, especially can hinder or even the infringement original characterization of adsorption of sorbing material and/or desorption characteristic, and can make it partially or completely can't be used for dry humid air from washing container.

In addition, in case of necessity, can be advantageously, the entrance side pipeline section of air transmitted passage leads in the contactor of drying device in the zone near the bottom of contactor, makes especially about 90 ° and become the through-flow direction of the preferred vertical of contactor of the deflection of inflow direction of contactor.Humid air is drawn through sidewall being arranged in washing container and/or at least one entrance side pipeline section of the air transmitted passage on the rear wall from washing container.On the other hand, can be so that the outlet side pipeline section of air transmitted passage extend straight between the feed opening of the outlet opening of contactor and washing container basically, and keep relatively shorter length.The outlet side pipeline section that is particularly advantageous in like this air transmitted passage links to each other with at least one inlet of washing container in the zone of the bottom of close washing container.For example, the outlet side pipeline section of air transmitted passage can lead to the opening in the bottom of washing container.Like this, especially can in the desorption process of sorbing material, avoid thermal loss as far as possible, this be because in desorption process through the air that leaves contactor of heating can be in the mode that do not have road loss basically, just flow directly in the washing container.Like this, especially, can in desorption process, improve the efficient of adsorption dry device.

According to another favourable improvement embodiment, when the flow direction that flows along air is watched, can be provided with at least one air blast that is used to produce air stream in the upstream of drying device.Like this, just can make force air flow through sorbing material especially effectively.

According to another favourable improvement embodiment, when streamwise is watched, between air blast and drying device, can be provided with at least one corresponding heating element heater, particularly electrical heating elements of being used for desorption.Like this, just can help sorbing material is regenerated, make it through can in next washes the dishes program, being used for the dry article that have been washed after regenerating.

Especially, when streamwise is watched, can be useful be, in contactor, the upstream of absorbing unit of reversible dehydration sorbing material is provided with at least one heating element heater, particularly electrical heating elements as the desorption that is used for described sorbing material of the element of contactor in comprising of contactor.Like this, provide air heat, that is, hot-air can flow through sorbing material as far as possible equably.Can avoid producing so-called " hot spot " by this way as far as possible, just avoid as far as possible the hot-spot position occurring in the packing volume of sorbing material.

According to a kind of favourable improvement embodiment, drying device comprises that at least one has reversible at least one absorbing unit that dehydrates material or drier, especially zeolite fixed bed or zeolite package body.Especially can form the zeolite package body by preferred spherical loose zeolite granular material.Preferably, drying material or sorbing material are placed the container or the housing of absorbing unit with identical as far as possible bed thickness.Preferably, the container of absorbing unit at its air feed opening and/or air outlet opening respectively by at least one filter screen gauge or covering.Like this, just can deposit sorbing material with practical and compact mode, simultaneously can allow air fully pass through, thereby make sorbing material fully to adsorb the airborne moisture of flowing through, and can make stored moisture discharge again or desorption in the flow through mode of air of heating with condensing mode.

Dependent claims is that of the present invention other improves form of implementation.

Description of drawings

Below will the present invention and improvement embodiment thereof be explained in more detail according to a unique width of cloth figure.

The specific embodiment

Figure 1 shows that the schematic diagram of dish-washing machine GS, comprise washing container SB and absorption drying system TS, described absorption drying system preferred arrangements promptly is arranged in outside the washing container SB of dish-washing machine GS outside.Critical piece comprises air transmitted passage VK, at least one air blast or fan GB and drying device TE.In washing container SB, be mounted with for example one or morely be used for holding, the basket with netting on top GK of wash dining set.Drying device TE links to each other with at least one inlet AL with at least one outlet EL of washing container SB by air transmitted passage VK.In this case, described air transmitted passage VK is arranged in outside the washing container SB basically.Particularly, the entrance side pipeline section RA1 of air transmitted passage VK is near away from the top area of the bottom of washing container or the outlet EL that upper area is connected to washing container SB.The outlet side pipeline section RA2 of air transmitted passage VK leads to the inlet AL of washing container SB in the zone of the bottom of close washing container SB.In this way, for example just can during the drying steps of the program of washing the dishes, guide air into drying device TE from the inside of washing container SB via air transmitted passage VK, among sending it back to washing container SB again from described drying device after the super-dry, just make air circulation by absorption drying system TS.Because air intake is at the upper area of washing container SB, therefore can avoid water (for brevity basically from the collecting-tank of the bottom of washing container, omit among the figure) or enter the contactor BEH of air transmitted passage and drying device TE from the water injection system WS of washing container among, otherwise will make sorbing material become wet and can't use.

At this, in this exemplary embodiment, advantageously, drying device TE is arranged in the base assemblies or lower unit BG of bottom below of washing container SB.It is designed to the form of so-called adsorption column.In same housing or container B EH, described adsorption column comprises that at least one heating element heater HZ and streamwise are arranged in the absorbing unit SE in downstream, and for example reversible dehydration sorbing material ZEO of zeolite and so on is housed in the absorbing unit.Absorbing unit especially comprises the fixed bed of fixed bed, preferred zeolite of sorbing material as molecular sieve, perhaps is filled with loose sorbing material, preferred zeolite.The zeolite microparticles of especially can be by loose granule material or other particulate, preferably being preferably the microballoon shape constitutes sorbing material obturator, particularly zeolite obturator.Preferably, one deck or multilayer being had basically the drying material of same thickness or sorbing material in the container of drying device TE or housing BEH places two to be separated by in short transverse and to form absorbing unit SE between the filter screen of certain interval or the punched-plate.At this, be arranged on the horizontal plane according to can predefined height distance these two filter screens being parallel to each other and overlapping.At this, each filter screen all is plane or even shape basically.The shell of housing BEH forms external boundary with its encirclement around the whole excircle of two filter screens on its outward flange.Therefore, absorbing unit SE is arranged in the housing BEH on the substantially horizontal plane.In this way, absorbing unit preferably at each air feed opening and/or air outlet opening place by at least one filter screen or mesh restraint or covering, thereby prevent that sorbing material particulate, especially zeolite microparticles from coming off from the container B EH of absorbing unit SE, air can flow to the air outlet opening from the air feed opening via sorbing material inside in the mode that does not have flow resistance basically simultaneously.Absorbing unit preferably has the entrance side that is plane basically and flows into face and be plane outlet side effluent face basically.Adopt such absorbing unit, just can deposit sorbing material with practical and compact mode, simultaneously can allow air fully pass through, make for adsorption process, sorbing material not only can fully adsorb the airborne moisture of flowing through with condensing mode, for resolving, also can make stored moisture discharge again or desorption in the flow through mode of air of heating, thereby with regneration of adsorbent material.

The housing BEH of drying device TE forms and is positioned at the below, bottom of washing container GS, thereby makes the air stream of perpendicular therefrom to flow through.In other words, can allow air stream to flow through built-in absorbing unit SE from bottom to top.For air is supplied with, the downstream latter end of the entrance side pipeline section RA1 of air transmitted passage VK engages housing at bottom or the bottom section of housing BEH.At this, in this exemplary embodiment, the downstream latter end of entrance side pipeline section RA1 extends towards the bottom of housing BEH on a horizontal plane basically.Simultaneously, basically it is arranged in the bottom part of close housing BEH.Connecting on housing BEH near the bottom part, thus can be with the air stream that is sent to this housing from the flow direction LS deflection (deflection is about 90 ° in this case) of original approximate horizontal and with the flow direction VS of approximate vertical by housing BEH.General, be exactly in zone or bottom section at the chamber of housing BEH near the bottom, will deflect into flow direction VS from its original inflow direction from the air-flow LS that entrance side pipeline section RA1 enters.In this, through the flow direction that outlet opening or the out splice going splice towards the top of housing BEH (here basically in vertical direction) of bottom towards the top side of the linearly especially basically sealing from housing of the flow direction VS of housing BEH passes housing, the upstream side latter end of the outlet side pipeline section RA2 of air transmitted passage GS is connected on the described outlet connection.Adopt this flow direction, can make the air-flow perpendicular see through or pass approximate horizontal and leave the interior sorbing material layer of absorbing unit SE in.

For the reversible dehydration sorbing material that makes absorbing unit SE especially zeolite ZEO desorption, in housing BEH, be provided with at least one heating element heater HZ, thereby provide air heat for sorbing material SE entering in the proximity before the zone of absorbing unit SE.At this, described heating element heater HZ is positioned on the plane that enters before the zone, enter between zone and this plane substantially parallel and have predetermined clearance distance, to avoid sorbing material in its inlet surface place hot-spot.Preferably, constitute heating element heater HZ by heating rod or heater coil.Especially, corresponding heating element heater HZ extends on the whole clear span that enters cross-section region that contains the reversible absorbing unit SE that dehydrates material basically.So just can be in the zone of the vertical wall that extends towards the bottom, promptly particularly at the lateral edges place of absorbing unit SE also can with at the just the same ground of zone line of the cross section of absorbing unit SE width heated air flow.So just can when desorption, avoid as far as possible in drying material local moist position occurring, especially can avoid in the zone of the sidewall of absorbing unit SE, local moist position occurring, promptly can guarantee even dry sorbing material.If the width of absorbing unit SE is substantially equal to the inboard width of the housing BEH of drying device TE, then the heating element heater HZ before the input cross-section region of absorbing unit preferably extends on the whole inboard width of housing BEH basically.Make desorbed of adsorbed materials attached in order evenly to heat the input cross-section region of absorbing unit SE as far as possible comprehensively, thereby avoid as far as possible occurring in the sorbing material local heat less than the place, heating element heater HZ preferably is snakelike or serpentine towards the bottom of absorbing unit, especially housing BEH.The serpentine coil of heating element heater preferably enters on the inboard width in zone absorbing unit SE whole towards the bottom and extends back and forth between two sidewalls at housing BEH.At this, the coil of heating element heater HZ is especially on same plane.

When streamwise is watched, in order to produce compulsory air stream, in the entrance side pipeline section RA1 of the upstream of the absorbing unit SE of contactor BEH, air blast GB is installed by air transmitted passage VK.

Generally speaking, air transmitted passage VK leads to drying device TE from washing container GS, and then comes back to therefrom among the washing container SB.Air blast GB in air transmitted passage VK, utilizes air blast to suck air from washing container SB in the upstream arrangement of drying device TE, and blow air comes back in the washing container via drying device TE then.In the contactor BEH of drying device TE, on the one hand inhaled air is carried out drying, reversible dehydration sorbing material in the just described contactor absorbs moisture, utilize at least one heating element heater sorbing material is dry again on the other hand with designated time intervals, just make its dehydration, from air, absorb moisture again thereby it can be got ready.

Advantageously, reversible dehydration sorbing material, especially the zeolite ZEO of suitable weight are provided in contactor BEH, be used for adsorbing the moisture of carrying in the air exchange mode, make the amount of moisture of sorbing material absorption be less than the amount of liquid that is applied on the article to be washed, especially be less than the amount of liquid that in the cleaning rinsing step, applies.Therefore, suitably mate the weight of the sorbing material among the contactor BEH, make its part that only absorbs whole amount of liquid, this part amount of liquid is less than the total amount of liquid that is applied on the washing articles, just can use less sorbing material efficiently in conjunction with airborne moisture.So just can realize compact contactor structure.Simultaneously, also can guarantee to reduce and utilize heater to heat to make the required energy consumption of sorbing material holomorphosis, this be because in the reality only to through overmatching or measurement be enough to the well dried sorbing material of washing articles is heated.

Especially, can be advantageously the reversible dehydration sorbing material of suitable weight be arranged among the contactor, makes the amount of moisture of reversible adsorption material absorption be substantially equal to the moistening amount of moistening washing articles when the cleaning rinsing step finishes.In this case, described moistening amount refers in particular to and is attached to the article that have been washed when the cleaning rinsing step finishes, be used to keep on the inwall of the basket of tableware and/or washing container and can't flow to the amount of liquid of the bottom of washing container under the gravity effect, in the cleaning rinsing step, the article utilization that has been washed is mixed with the water treatment of stress remover.Adopt the mode of the weight of this coupling sorbing material, can make the wettability power of sorbing material be enough to the air exchange mode in sorbing material basically fully in conjunction with or absorb these moistening amounts.

Preferably, the sorbing material of a certain weight is placed contactor, make that adsorbed amount of moisture is to be applied to 4%～25% of amount of liquid on the washing articles, especially 5%～15%.

Advantageously, the weight of the reversible dehydration sorbing material in the contactor is 0.2kg～5kg, particularly 0.3kg～3kg, is preferably 0.5kg～2.5kg.

Claims (13)

1. a dish-washing machine (GS); Especially family expenses dish-washing machine; Comprise: at least one drying device (TE) of the article after at least one washs container (SB) and is used for dry washing; Described drying device (TE) can have be used at least one contactor (BEH) that keeps reversible dehydration sorbing material, especially zeolite (ZEO) and at least one air transmitted passage (VK); Described air transmitted passage is positioned between drying device (TE) and the washing container (SB); Between washing container (SB) and contactor (BEH), to produce the air exchange

It is characterized in that,

Being used to of providing in contactor (BEH) adsorbs the amount of moisture that the weight of the reversible dehydration sorbing material of the amount of moisture that transmits by air exchange makes sorbing material absorb and is less than the amount of liquid that is applied on the article to be washed, and especially is less than the amount of liquid that applies in the cleaning rinsing step.

2. dish-washing machine according to claim 1 (GS), it is characterized in that the weight of the reversible dehydration sorbing material that provides makes the amount of moisture of reversible adsorption material absorption be substantially equal to the moistening amount of moistening washing articles when the cleaning rinsing step finishes in contactor (BEH).

3. dish-washing machine according to claim 1 and 2 (GS) is characterized in that, the amount of moisture of absorption is to be applied to 4%～25%, especially 5%～15% of amount of liquid on the washing articles.

4. according to each described dish-washing machine (GS) in the claim 1～3, it is characterized in that the weight of the reversible dehydration sorbing material in the contactor (BEH) is 0.2kg～5kg, particularly 0.3kg～3kg, be preferably 0.5kg～2.5kg.

5. at least one described dish-washing machine (GS) in requiring according to aforesaid right is characterized in that contactor (BEH) places the base assemblies (BG) of the below, bottom of washing container (SB).

6. at least one described dish-washing machine (GS) in requiring according to aforesaid right is characterized in that drying device (TE) links to each other with at least one inlet (AL) with at least one outlet (EL) of washing container (SB) by at least one air transmitted passage (VK).

7. dish-washing machine according to claim 6 (GS) is characterized in that, air transmitted passage (VK) is arranged in outside the washing container (SB) basically.

8. at least one described dish-washing machine (GS) in requiring according to aforesaid right is characterized in that the outlet side pipeline section (RA2) of air transmitted passage (VK) links to each other with at least one inlet (RA1) in the zone of the bottom of close washing container (SB).

9. at least one described dish-washing machine (GS) in requiring according to aforesaid right, it is characterized in that the entrance side pipeline section (RA1) of air transmitted passage (VK) is above the bottom of washing container, particularly linking to each other with at least one outlet (EL) of washing container (SB) with approaching zone, the top of washing container.

10. at least one described dish-washing machine (GS) in requiring according to aforesaid right, it is characterized in that, the entrance side pipeline section (RA1) of air transmitted passage (VK) leads in the contactor (BEH) of drying device (TE) in the zone near the bottom of contactor (BEH), makes especially about 90 ° and become the through-flow direction of contactor (BEH) of the deflection of inflow direction of contactor.

11. according at least one described dish-washing machine (GS) in the aforesaid right requirement, it is characterized in that, when the flow direction that flows (LS) along air is watched, be useful at least one air blast (GB) of generation air stream (LS) in the provided upstream of drying device (TE).

12. according at least one described dish-washing machine (GS) in the aforesaid right requirement, it is characterized in that, when streamwise is watched, between air blast (GB) and drying device (TE), be provided with at least one the corresponding heating element heater (HZ) that is used for desorption.

13. according at least one described dish-washing machine (GS) in the aforesaid right requirement, it is characterized in that, when streamwise is watched, in contactor (BEH), be provided with at least one heating element heater (HZ) in the upstream of the absorbing unit (SE) of comprising of contactor of reversible dehydration sorbing material (ZEO) as the desorption that is used for described sorbing material of the element of contactor (BEH).

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