CN101152070B - Dishwasher - Google Patents

Abstract

A dishwasher includes a tub defining a washing chamber, and a door rotatably connected to the tub. The door includes a door cover and a door liner connected to a rear side of the door cover. A condenser is disposed between the door cover and the door liner to condense stream, and a fan assembly sucks steam inside the tub and supplies the sucked steam to the condenser.

Description

Dish-washing machine

Technical field

The application relates to a kind of dish-washing machine, this dish-washing machine under high pressure by the nozzle ejection cleaning fluid to remove the swill that remains on bowl dish.

Background technology

Dish-washing machine comprises the storage tank (sump) to hold cleaning fluid on staving (tub) that limits cleaning chambers and the bottom that is installed in this staving.Scavenging pump is installed in this storage tank inside so that cleaning fluid is pumped into nozzle.Cleaning fluid under high pressure sprays by the spray orifice that is formed at nozzle-end.The surface of the cleaning fluid collision bowl dish that under high pressure sprays makes that swill and the impurity on the bowl dish is cleaned staving.

High-temperature steam in the dish-washing machine can produce with aeration type drying means and circular form drying means.

According to the aeration type drying means, drying fan is discharged into humid air outside the staving.According to the circular form drying means, steam carries out condensation by the condenser that is arranged at staving inside and is incorporated in the staving once more.

Yet, use the shortcoming of the dish-washing machine of aeration type drying means to be, hot and humid air is directly discharged outside the staving, and generation can make the user feel uncomfortable thermal and humidity environment.In addition, because the direct discharging of hot and humid air, user or children may be scalded.

When the hot and humid air of discharging, steam can be condensate in around the steam (vapor) outlet and drip on the floor, makes the floor become wet.And, exist the user owing to accumulating in slip the danger on the floor of condensed water on the floor.In addition, the condensed water that accumulates on the floor may cause mouldy.

Use the shortcoming of the dish-washing machine of circular form drying means to be, because condenser size is little, steam is condensation fully.Because undersized condenser, dry bowl dish needs for a long time and needs other condenser.

Summary of the invention

Therefore, the dish-washing machine that has overcome one or more problems that cause owing to the limitation and the shortcoming of correlation technique basically will be useful.

An object of the present invention is to provide a kind of dish-washing machine with improved condenser, but this condenser rapid condensation steam.

Another object of the present invention provides the dish-washing machine that a kind of steam that discharges by rapid condensation shortens drying time in arid cycle.

Another purpose of the present invention provides a kind of dish-washing machine of rapid condensation steam, makes the user can not feel uncomfortable and can eliminate the danger of scalding injury.

A further object of the present invention provides a kind of dish-washing machine with improved condenser, and making no longer needs other condenser.

Other advantage of the present invention, purpose and feature will partly be set forth in the following description, and to those skilled in the art, after the content below having studied, other advantage of the present invention, purpose and feature can partly become clear, perhaps can know from enforcement of the present invention.Purpose of the present invention and other advantages can realize and obtain by specifically noted structure in the specification of being write, its claims and accompanying drawing.

In order to realize these purposes and other advantage and,, to the invention provides a kind of dish-washing machine, comprising: the staving that limits cleaning chambers as in this concrete enforcement and broadly described according to the intent of the present invention; Be rotatably connected to the door of this staving, the door lining that this comprises the door closure that limits the place ahead outward appearance and is connected to this door closure rear side; Be arranged between this door closure and this lining condenser with condensed steam; And fan component, be used to suck the steam of this staving inside and the steam that sucks is supplied to this condenser.This fan component comprises: fan, be used for from suck steam in this staving and with the discharge of steam that sucks in this condenser; Blower-casting is set to be used to hold this fan; Blower; And actuator, be used to drive this blower.This blower is set to be used for optionally opening and the closed hole that is formed in this blower-casting, is formed with the extraneous air inlet in the part of the front surface of this blower-casting, and is formed with mixed gas outlet in another part of this blower-casting.Steam and extraneous air make up in this blower-casting producing fluid-mixing, and this fluid-mixing is introduced in this condenser via this mixed gas outlet of this blower-casting.

Another scheme according to the present invention provides a kind of dish-washing machine, comprising: staving; Be used for the optionally door of the front side of this staving of opened/closed; Fan component, comprise fan, blower-casting and opened/closed member, this fan is installed in this inside to suck the steam of this staving inside, this fan is contained in this blower-casting and steam and extraneous air are mixed with each other in this blower-casting, and this opened/closed member is used for optionally making this staving to be communicated with this blower-casting; And condenser, thereby be arranged on this inside by conduct condensation via this heat from this fan component fluid discharged.In the part of the front surface of this blower-casting, be formed with the extraneous air inlet, and in another part of this blower-casting, be formed with mixed gas outlet, steam and extraneous air make up in this blower-casting producing fluid-mixing, and this fluid-mixing is introduced in this condenser via this mixed gas outlet of this blower-casting.

According to another aspect of the present invention, provide a kind of dish-washing machine, having comprised: staving; Be rotatably connected to the door of this staving front side; Fan component is arranged at this inside steam being sucked in this staving, and this fan component comprises fan, be set to be used to hold the blower-casting of this fan, blower and be used to drive the actuator of this blower; And the condenser that is connected to this fan component, this condenser limits the condensation space that is used for the steam condensation, this fan suck steam in this staving and with the discharge of steam that sucks in condenser.This blower is set to be used for optionally opening and the closed hole that is formed in this blower-casting, is formed with the extraneous air inlet in the part of the front surface of this blower-casting, and is formed with mixed gas outlet in another part of this blower-casting.Steam and extraneous air make up in this blower-casting producing fluid-mixing, and this fluid-mixing is introduced in this condenser via this mixed gas outlet of this blower-casting.

According to another aspect of the present invention, the steam that discharges in arid cycle can be by rapid condensation.

In addition, because the steam that discharges in arid cycle is cooled off fast, so can shorten drying time.

Because the steam that discharges in arid cycle is cooled off fast, so that the user can not feel is uncomfortable.

In addition, because the steam that discharges in arid cycle is cooled off fast, so can eliminate the danger of scalding injury.

In addition, because the part of this door is carried out the function of this condenser, so do not need other condenser.

And condensation takes place not can be near steam (vapor) outlet, so condensed water can not drip on the floor.Therefore, can prevent that the user from slipping on the floor.

In addition, can prevent that the corner that causes owing to the condensed water that accumulates on the floor is mouldy.

It will be appreciated that aforementioned generality explanation of the present invention and following detailed description all are exemplary and indicative, should not be construed as the scope of restriction claim.

Description of drawings

The accompanying drawing that is comprised provides further explanation of the present invention, and it is incorporated among the application and constitutes the application's a part.These accompanying drawings show embodiments of the invention, and are used from explanation principle of the present invention with specification one.In the accompanying drawings:

Fig. 1 is the sectional view according to the dish-washing machine of the embodiment of the invention;

Fig. 2 is the enlarged drawing of the A part of Fig. 1;

Fig. 3 is the front view according to the door lining of the dish-washing machine of first embodiment of the invention;

Fig. 4 is the stereogram according to the condenser structure of the dish-washing machine of first embodiment of the invention;

Fig. 5 is the front view according to the door lining of the dish-washing machine of second embodiment of the invention;

Fig. 6 is the front view according to the door lining of the dish-washing machine of third embodiment of the invention;

Fig. 7 is the stereogram according to the condenser structure of the dish-washing machine of third embodiment of the invention.

The specific embodiment

Hereinafter with reference to example shown in the drawings various embodiment of the present invention are described in detail.As much as possible, use identical Reference numeral to represent same or analogous parts in the whole accompanying drawing.

Fig. 1 is the sectional view according to the dish-washing machine of the embodiment of the invention, and Fig. 2 is the zoomed-in view of the A part of Fig. 1.

With reference to figure 1 and Fig. 2; dish-washing machine 100 comprises: limit outside framework casing 101, be subjected to casing 101 protection and form cleaning chambers staving 110, be rotatably installed in the door 270 of the front side of staving 110 with this cleaning chambers of opened/closed, and be arranged at the storage tank 170 of staving 110 bottom center portions to hold cleaning fluid.

In addition, dish-washing machine 100 comprises: be installed in storage tank 170 inside with the scavenging pump 180 of pumping cleaning fluid under high pressure, be connected to the motor 190 of axle to drive this scavenging pump 180 of scavenging pump 180 and the door 270 that is rotatably connected to staving 110.

Door 270 comprises the door closure 272 that limits the place ahead outward appearance and is connected to the door lining 271 of door closure 272 rear sides.Condenser is inserted between door closure 272 and the door lining 271, and this will hereinafter be described.

Scavenging pump 180 is designed to out of service when detecting door 270 unlatchings during the high temperature cleaning frequency.Also have, scavenging pump 180 is designed to restart operation during the scheduled time when detecting door 270 closed processes afterwards.

In addition, dish-washing machine 100 comprises water part (water guide) 140, bottom nozzle 160, intermediate noxzzle 150 and top jet nozzle 155.Water part 140 provides flow path for the cleaning fluid of scavenging pump 180 pumpings.Bottom nozzle 160 is arranged on the bottom of staving 110 and is positioned at storage tank 170 tops with the jet cleaning liquid that makes progress.Intermediate noxzzle 150 is from the predetermined portions branch of water part 140, and be arranged at staving 110 cores near.Top jet nozzle 155 is arranged near the ceiling of staving 110 with downward jet cleaning liquid.

Condenser 300 is arranged between door closure 272 and the door lining 271, and fan component is connected to the top of condenser 300 to suck steam from staving 110.This fan component comprises the air that is used to suck staving 110 inside and inhaled air is discharged into fan 260 in the condenser 300, and blower-casting 250 is set to be used to hold this fan 260.Fan 260 can be the fan of double-suction centrifugal pump type.Delivery pipe 290 is connected to the opposite side of blower-casting 250 with discharged steam.

Condenser 300 is connected to the rear side of door closure 272 tightly, makes the steam of extraneous air and condenser 300 inside via door closure 272 heat exchange each other.That is to say that the steam of door 270 air outside and condenser 300 inside conducts heat exchange each other by the heat via the wall of door closure 272 and condenser 300.The front side of condenser 300 is opened wide.The front side that condenser 300 opens wide seals tightly by door closure 272, makes the heat conduction realize apace.That is to say that door closure 272 can form the part of condenser 300.

The front surface of door closure 272 is exposed to the outside.The rear surface of door closure 272 contacts with the front surface of condenser 300 tightly, perhaps is exposed in the high-temperature steam of the condenser 300 of flowing through.Therefore, the high-temperature steam of the extraneous air of room temperature and condenser 300 inside is by the condensation via the heat exchange of door closure 272.

Because the door closure 272 of door 270 is contacted with a side of condenser 300 tightly or forms the part of condenser 300, does not therefore need other condensate component, thereby simplifies condenser structure.

Be arranged at the inside of door although see condenser 300 in one embodiment of the invention, illustrating so only is for purpose of explanation.According to another embodiment, condenser 300 can be connected to a side of casing 101, and perhaps casing 101 can form parts of condenser 300.In this case, condenser 300 is installed between casing 101 and the staving 110.

The operation of dish-washing machine shown in Figure 1 100 is described below.

The user opens the door 270 of dish-washing machine 100 and upward bowl frame (the upper rack) 120 and/or the following bowl frame 130 of cleaning chambers is pulled out this cleaning chambers.The user places the bowl dish on this on bowl frame 120 and/or the following bowl frame 130.Then, user's door close 270 and move this dish-washing machine 100 by connecting switch.

When dish-washing machine 100 is carried out the cleaning frequency, cleaning solution supplying is arrived storage tank 170.After the supply of cleaning fluid was finished, motor 190 brought into operation.The impeller (not shown) is arranged at the inside of the scavenging pump 180 of the axle that is connected to motor 190.When the impeller (not shown) rotated, cleaning fluid alternately was pumped into bottom nozzle 160 or water part 140.

The wash liquid stream that is pumped into water part 140 arrives top jet nozzle 155 and intermediate noxzzle 150, and finally is ejected in the cleaning chambers.The bowl dish that is contained in bowl frame 120 and/or the following bowl frame 130 cleans by the cleaning fluid that sprays.

Yet, when door 270 when high temperature was opened in the cleaning frequency, scavenging pump 180 is through restarting operation after the scheduled time, thereby prevents to be contained in the cleaning fluids in the storage tank 170 overflow owing to be incorporated into the expansion of the interior cold air of staving 110.

In other words, when the high temperature cleaning fluid that sprays contacts with Cryogenic air, be contained in the cleaning fluid overflow in the storage tank 170 owing to air expands.In order to prevent this phenomenon, during the high temperature cleaning frequency, when detecting the opened/closed of door 270, scavenging pump 180 is out of service.Then, through after the scheduled time, scavenging pump 180 restarts operation.

Top jet nozzle 155 downward jet cleaning liquid, intermediate noxzzle 150 is jet cleaning liquid upwards, is contained in bowl dish in the bowl frame 120 with cleaning.

In addition, bottom nozzle 160 is jet cleaning liquid upwards, is contained in down bowl dish in the bowl frame 130 with cleaning.Bottom at intermediate noxzzle 150 also can form spray-hole.In this case, because intermediate noxzzle 150 jet cleaning liquid up and down, the upper surface that is contained in down the bowl dish in the bowl frame 130 also can be cleaned, and simultaneously, the lower surface that is contained in the interior bowl dish of bowl frame 120 also is cleaned.

The dirty cleaning fluid that accumulates in during the cleaning frequency in the storage tank 170 filters by the filter (not shown).When dish-washing machine 100 finished the cleaning frequency and begins to discharge the cycle, the cleaning fluid after the emptying pump (not shown) will filter pumped out dish-washing machine 100.

After cleaning fluid discharge, dish-washing machine 100 is carried out flushing cycle.That is to say, be similar to the cleaning frequency, the cleaning fluid of cleaning supplies to storage tank 170 by inlet and sprays by nozzle 150 and 160, the cleaning cleaning fluid flushing that feasible bowl dish is injected.

After flushing cycle, dish-washing machine 100 is carried out drying process with dry bowl dish, thereby finishes its operation of washing the dishes.

Fig. 3 is that Fig. 4 is the stereogram according to the condenser structure of the dish-washing machine of first embodiment of the invention according to the front view of the door lining of the dish-washing machine of first embodiment of the invention.

With reference to figure 3 and Fig. 4, the steam that discharges from staving 110 is incorporated in the condenser 300 in the mode of mixing with extraneous air.

Particularly, fan component sucks moistures from staving 110, and condenser 300 fluids be connected to a side of fan component, the moisture that enters condenser 300 is condensed at this.Fan component and condenser 300 are installed to a front surface of lining 271, and door lining 271 is configured to form the rear portion of door 270.

More specifically, fan component comprises blower-casting 250, is contained in fan 260, blower 256 in the blower-casting 250, and the actuator 257 that is used to drive blower (blow cover) 256.Blower 256 is set to be used for opened/closed optionally and is formed at holes in fan component 250 and the door lining 271.Extraneous air inlet 255 is formed in the part of front surface of blower-casting 250, and mixed gas outlet 254 is formed in another part of blower-casting 250.

Air is introduced in blower-casting 250 by extraneous air inlet 255 in the door.Air is the air in the space that is present between door closure 272 and the door lining 271 in the door.Be connected to condenser 300 mixed gas outlet 254 fluids.

As previously mentioned, condenser 300 directly contacts the rear surface of door closure 272.Selectively, the front side of condenser 300 can be opened wide.Then, the front side of opening wide of condenser 300 seals tightly door closure 272.

Condenser 300 comprises condensation chamber 310, inlet 320 and exports 330.Condensation chamber 310 is that hollow is box-like.Inlet 320 is formed at a side of condensation chamber 310, preferably, is formed at the top of condensation chamber 310.Outlet 330 is formed at condensation chamber 310 opposite sides, preferably, is formed at the bottom of condensation chamber 310.

As shown in the figure, preferably, the bottom of condensation chamber 310 is tilted to down towards outlet 330, makes condensed water be directed into outlet 330.

In addition, at least one conducting element (flow guide) 340 is formed at the inside of condensation chamber 310.Selectively, in another embodiment, can alternately arrange from a plurality of conducting elements that extend on the left side and the right side of condensation chamber 310.What want is that this conducting element 340 is arranged such that the flow path of condensation chamber 310 inside forms S shape.

Simultaneously, inlet 320 is connected to the mixed gas outlet 254 of blower-casting 250, and exports 330 lower parts that extend to door, makes outlet 330 bottoms towards staving 110.In other words, comprise the bottom that is introduced in staving 110 via the gas of the condensed gas that exports 330 dischargings once more.

Be described below the arid cycle of above-mentioned dish-washing machine.

When began arid cycle, high-temperature steam was formed at staving 110 inside.When fan 260 operation, the steam of staving 110 inside is inhaled in the blower-casting 250, and the extraneous air inlet 255 of extraneous air by blower-casting 250 is inhaled into.

Steam and extraneous air make up in blower-casting 250 to produce fluid-mixing, and this fluid-mixing is introduced in the condenser 300 via the outlet 254 of blower-casting 250.The fluid-mixing that is incorporated in the condenser 300 is being cooled when conducting element 340 descends.Because the front side of condenser 300 is connected to or seals tightly the part into door closure 272 tightly, extraneous air and this fluid-mixing are by conducting heat exchange via the heat of door closure 272.

As the result of heat exchange, some fluid-mixing condensations and drop to the bottom of condenser 300.Condensed water and steam are incorporated in the staving 110 once more by condenser 300 outlets 330.That is to say, carry out arid cycle by periodic process, in this periodic process, the steam of staving 110 inside process blower-casting 250 and condenser 300 also is incorporated in the staving 110 once more.

Fig. 5 is the front view according to the door lining of the dish-washing machine of second embodiment of the invention.

With reference to figure 5, this dish-washing machine comprises extraneous air guiding element 280, and this extraneous air guiding element 280 is provided with discretely to suck extraneous air.

In first embodiment, the steam of staving 110 inside at first is condensed, and mixes with air in the door that sucks via extraneous air guiding element 280 then.On the other hand, in the present embodiment, the steam of staving 110 inside mixes condensation then with the interior air of the door that sucks via extraneous air guiding element 280.

In the dish-washing machine of Fig. 5, fan component is connected to a front side of lining 271 to suck steam from staving 110 inside.Condenser is connected to the outlet 254 of fan component.Extraneous air guiding element 280 is connected to a side of fan component to suck extraneous air.

In first embodiment (Fig. 3), extraneous air inlet 255 is formed in the part of front surface of blower-casting 250.In present embodiment (Fig. 5), extraneous air guiding element 280 is connected to extraneous air inlet 255.

Extraneous air guiding element 280 is arranged at a front side of lining 271 discretely, and outlet is arranged at below the door 270.Therefore, can easily suck the extraneous air that is present in this dish-washing machine installing space.

Because miscellaneous part is identical with second embodiment with the steam condensation process, has omitted the detailed description to them for simplicity.

Fig. 6 is that Fig. 7 is the stereogram according to the condenser structure of the dish-washing machine of third embodiment of the invention according to the front view of the door lining of the dish-washing machine of third embodiment of the invention.

With reference to figure 6 and Fig. 7, the outlet 430 of condenser 400 has the cross section of expansion, therefore can not condense or condensation near outlet.

Fan component is from staving 110 inner suction steam, and extraneous air guiding element 280 is connected to a side of fan component to suck extraneous air.Condenser 400 is connected to the outlet 254 of fan component.Because this structure is identical with the structure of second embodiment, has omitted the detailed description to it for simplicity.

Simultaneously, condenser 400 comprises condensation chamber 410, is formed at the inlet 420 on condensation chamber 410 tops, is formed at the outlet of condensation chamber 410 bottoms, and at least one conducting element 440 that is formed at condensation chamber 410 inside.

Find out that from Fig. 6 and Fig. 7 the outlet 430 of condenser 400 has the cross section of expansion, and the cross-sectional configurations of discharge unit 431 is the cross section greater than outlet 430 beginning parts.Discharge unit 431 is exposed to an interior space, rather than is exposed to staving 110 inside.Therefore, the gas that discharges via outlet 430 can not be introduced in the staving 100 again, but is discharged into an interior space.

And the pressure of this mist that falls along outlet 430 reduces through discharge unit 431 time.Therefore, maintain gaseous state via discharge unit 431 fluid discharged.Therefore, condensation can not take place near discharge unit 431.

For a person skilled in the art, it is obvious doing various modifications and variations.Therefore, as long as drop in appended claims and the equivalency range thereof, these modifications and variations are all contained.

Claims (21)

1. dish-washing machine comprises:

Staving limits cleaning chambers;

Door is rotatably connected to this staving, the door lining that this comprises door closure and is connected to this door closure rear side;

Condenser is arranged between this door closure and this lining with condensed steam; And

Fan component sucks the steam of this staving inside and the steam that sucks is supplied to this condenser;

Wherein this fan component comprises: fan, be used for from suck steam in this staving and with the discharge of steam that sucks in this condenser; Blower-casting is set to be used to hold this fan; Blower; And actuator, be used to drive this blower;

Wherein this blower is set to be used for optionally opening and the closed hole that is formed in this blower-casting, in the part of the front surface of this blower-casting, be formed with the extraneous air inlet, and in another part of this blower-casting, be formed with mixed gas outlet;

Wherein steam and extraneous air make up in this blower-casting producing fluid-mixing, and this fluid-mixing is introduced in this condenser via this mixed gas outlet of this blower-casting.

2. dish-washing machine as claimed in claim 1, wherein this condenser comprises at least one conducting element that forms vapor flow path.

3. dish-washing machine as claimed in claim 1, a side of wherein said condenser is communicated with the outlet of this fan component, and its opposite side is communicated with this staving.

4. dish-washing machine as claimed in claim 1, wherein this condenser is connected to the rear surface of this door closure.

5. dish-washing machine as claimed in claim 1, wherein the front side of this condenser is opened wide, and this front side of opening wide is by this door closure sealing.

6. dish-washing machine as claimed in claim 1 also comprises the extraneous air guiding element that is connected to this fan component one side, makes extraneous air be inhaled into this fan component.

7. dish-washing machine as claimed in claim 1, wherein this condenser comprises: inlet is connected to the outlet of this condenser; And outlet, extend in this student side.

8. dish-washing machine as claimed in claim 7, wherein the outlet of this condenser has the cross section than the expansion of the transversal face width of its end.

9. dish-washing machine comprises:

Staving;

Door, the optionally front side of the described staving of opened/closed;

Fan component, comprise fan, blower-casting and opened/closed member, this fan is installed in this door to suck steam in this staving, this fan is placed in this blower-casting, and described steam and extraneous air are mixed with each other in this blower-casting, and this opened/closed member optionally allows this staving to be communicated with this blower-casting; And

Condenser, thus be arranged in this by conduct condensation via this heat from this fan component fluid discharged;

Wherein in the part of the front surface of this blower-casting, be formed with the extraneous air inlet, and in another part of this blower-casting, be formed with mixed gas outlet;

Wherein steam and extraneous air make up in this blower-casting producing fluid-mixing, and this fluid-mixing is introduced in this condenser via this mixed gas outlet of this blower-casting.

10. dish-washing machine as claimed in claim 9, wherein this fan is the double-suction centrifugal pump fan.

11. dish-washing machine as claimed in claim 9 also comprises the extraneous air guiding element, the one end is connected to the installing space that this extraneous air inlet and the other end are exposed to this staving.

12. dish-washing machine as claimed in claim 9, wherein the bottom of this condenser is downward-sloping.

13. dish-washing machine as claimed in claim 9 also comprises a plurality of conducting elements, described a plurality of conducting elements are tilted to down extension, are introduced into the fluid-mixing stream of this condenser with guiding.

14. dish-washing machine as claimed in claim 13, wherein said conducting element alternately extend from the left side and the right side of this condenser.

15. dish-washing machine as claimed in claim 9, wherein said door comprises:

Door closure is exposed to the outside; And

Door serves as a contrast, and is exposed to the inner space of this staving.

16. dish-washing machine as claimed in claim 15, wherein this condenser is arranged between this lining and this door closure.

17. dish-washing machine as claimed in claim 15, wherein the fluid-mixing of this condenser inside is by the condensation via the heat conduction of this door closure and extraneous air.

18. dish-washing machine as claimed in claim 9, wherein this condenser comprises the outlet that is connected to this staving inside or is exposed to space outerpace.

19. a dish-washing machine comprises:

Staving;

Door is rotatably connected to the front side of this staving;

Fan component is arranged at this inside steam is sucked in this staving, and this fan component comprises: fan; Blower-casting is set to be used to hold this fan; Blower; And actuator, be used to drive this blower; And

Be connected to the condenser of this fan component, this condenser is formed for the condensation space of described steam condensation, this fan suck steam in this staving and with the discharge of steam that sucks in condenser;

Wherein this blower is set to be used for optionally opening and the closed hole that is formed in this blower-casting, in the part of the front surface of this blower-casting, be formed with the extraneous air inlet, and in another part of this blower-casting, be formed with mixed gas outlet;

Wherein steam and extraneous air make up in this blower-casting producing fluid-mixing, and this fluid-mixing is introduced in this condenser via this mixed gas outlet of this blower-casting.

20. dish-washing machine as claimed in claim 19 also comprises conducting element, this conducting element is arranged in this condenser, so that S shape vapor flow path to be provided.

21. dish-washing machine as claimed in claim 20, wherein this conducting element is from a side direction of this condenser opposite side that has a down dip.

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